PUBLICATIONS LIST OF PROFESSOR GEORGE GRÜNER

. 1967 . 1968 . 1969 . 1970 . 1971 . 1972 . 1973 . 1974 . 1975 . 1976 . 1977 . 1978 . 1979 . 1980 .

. 1981 . 1982 . 1983 . 1984 . 1985 . 1986 . 1987 . 1988 . 1989 . 1990 . 1991 . 1922 . 1993 . 1994 .

. 1995 . 1996 . 1997 . 1998 . 1999 . 2000 . 2001 . 2002 . 2003 . 2004 . 2005

1967

1.         K. Tompa, F. Tóth, G. Grüner, “Susceptibility of MnO Measured by the NMR  Method," Phys. Stat. Sol  22, K11.  

2.         G. G. Grüner, K. Tompa, F. Tóth, “NMR Studies of Molecular Motions in Compounds with Three Carbon Rings,"  Phys. Stat. Sol. 32, K71.

3.         A. Jánossy, G. . Grüner, K. Tompa, “PMR Studies of Frozen Acqueous   FeCl₂           Solutions,"  J. Chem. Phys. 51, 5189.

4.         K. Tompa, F. Tóth, G. Grüner, “NMR Investigation of Dilute Al-Ta Alloys," Solid State Comm. 7, 51.

5.         K. Tompa, G. Grüner, A. Jánossy, F. Tóth, “First Order Quadruple Effect in Dilute Copper-Based Cu-Zn Alloys," Solid State Comm. 7, 697. 

6.         G. Grüner, “Charge Density Oscillations in Dilute Fe-Al Alloys," Solid State Comm.   7, 1421.

1970

7.         G Grüner, K. Tompa, C.R. Vassel, “NMR study of metallurgical effects in dilute AlFe alloys". Hungarian Academy of Sciences, Budapest, Hungary. N/A

1971

8.         G. Grüner, E. Kovács-Csetényi, K. Tompa, C.R. Vassel, “27Al NMR Spectra in Al-3D-Transition Metal Alloys,"  Phys. Stat. Sol. 45, 663.  

9.         G. Grüner, C. Hargitai, “`Temperature Dependence of the Charge Oscillation Around Nearly Magnetic Impurities," Phys. Rev. Lett. 26, 772. 

10.        G Grüner, I. Vincze, “Hyperfine field distribution & average hyperfine field in dilute Fe-Co alloys.” Hungarian Acad. Sci., Budapest,Hungary, N/A.  

11.        A. Jánossy, G. Grüner, “Satellite Structure Due to Charge Perturbation Around a  Nearly Magnetic Impurity,"  Solid State Comm. 9, 1503. 

12.        G. Grüner, B.E. Paton, “LSF effects in Al-3D-Transition Metal Alloys," Technical  Report  KFKI-49.  (N/A} 

1972

13.        G. Grüner, I. Vincze, L. Cser, “Charge and Spin Perturbation Around Nonmagnetic Impurities in Iron,"  Solid State Comm.  10, 347.  

14.        F.I. Tóth, K. Tompa, G. Grüner, “Frequency Modulated NMR Spectrometer for Measurement of Internal Magnetic Fields,"  J. Phys. E  5, 42. 

15.        G. Grüner, “Temperature Dependence of the Charge Perturbation Around 3-D Transition Metal Impurities in Aluminum,"  Solid State Comm. 10, 1939.

16.        G. Grüner and A. Zawadowski, “Semiphenomenological Model for the Resonances and Charge Neutrality in Dilute Magnetic Alloys,"  Solid State Clomm. 11, 663. 

17.        I. Vincze, G. Grüner, “Temperature Dependence of the Hyperfine Field at Iron Atoms Near Three Dimensional Impurities," Phys. Rev. Lett. 28, 178.  

18.        F. Mezei, G. Grüner, “Theory of Anomalous Charge Oscillation Around Resonant  Scattering Impurities,"  Phys. Rev. Lett. 29, 1465. 

19.        E. Kovács-Csetényi, F.J. Kedves, L. Gergely, G. Grüner, “High Temperature Impurity Resistivity in AlMn Alloys,"  J. Phys. F  2, 499. 

1973

20.        G. Grüner, K. Tompa, “`Detailed ⁵⁷Fe Continuous NMR Spectra in Fe Based Alloys, "J. Phys. F3, 199. 

21.        A.M. Stewart, G. Grüner,  “Physical Properties Given by the Magnetic Hartree-Fock Solution of Anderson's Model," J. Phys.  F3, 843

22.        A.D. Caplin, G. Grüner, J.B. Dunlop,  “Al₁₀V: An Einstein Solid," Phys. Rev. Lett. 30, 1138. 

23.        G. Serfózó, E. Kovács-Csetényi, G. Grüner, “Quadrupolar NMR Line broadening in Al- Three Dimensional-Transition Metal Alloys,"  Solid State Comm. 13, 1315.

1974

24.        V. Zlatic, G. Grüner, N. Rivier, “Model Calculation of the Density of States of  Dilute Alloys,"  Solid State Comm. 14, 639.  

25.        F. Mezei, G. Grüner, “NMR Experimental Test for Existence of the Kondo Resonance," Proc. LT 13, Vol.2, 444 Plenum Press. 

26.        J.B. Dunlop, G. Grüner, F. Napoli,  “Phonon Resistivities of Dilute Transition Metal Compounds,"  Solid State Comm.  15, 13. 

27.        G. Grüner, N.F. Mott, “A Model for the Kondo Type Intermetallic Compounds With Small Effective Moments,"  J. Phys. F 4, L16.  

28.        J.B. Dunlop, G. Grüner, A.D. Caplin, “Dilute Intermetallic Compounds II:  Properties of Aluminum Rich Aluminum-transition Metal Phases,"  J. Phys. F  4, 2203. 

29.        A. Zawadowski, G. Grüner, “On the Absence of the Finite Conduction Electron  Polarization in Dilute Alloys,"  J. Phys. F 4, L202.  

30.        G. Grüner and A. Zawadowski, “Magnetic Impurities in Non-magnetic Metals," Rep. Prog. Phys.  37, 1497-1583.  

31.        G. Grüner, “Experimental Evidence for Many-body Effects in Dilute Alloys," Advances in Physics, 23, 941.

1975

32.        G. Mihály, K. Ritvay-Emandity, and G. Grüner, “High Temperature Resistivity of  Qn (TCNQ)₂ and Ad (TCNQ)₂,"  J. Phys. C  8, L361. 

33.          M. Miljak, A. Jánossy, G. Grüner,  “Magnetic Susceptibility of Qn (TCNQ)₂, "KFKI reports  38.  (1 page) N/A 

34.          G. Mihály, K. Holczer, K. Pintér, A. Jánossy, G. Grüner, “Magnetic and  Electric Properties of  NMeQn (TCNQ)₂,"  Solid State Comm. 17, 1007.

1976

35.        K. Holczer, G. Mihály, A. Jánossy, and G. Grüner, “Magnetic and Electric Properties of  Qn (TCNQ)₂,"  Mol. Cryst. Liq. Cryst.  32, 199.

36.        J.B. Dunlop and G. Grüner,  “One Dimensional Effects in the Intermetallic Compound Al₁₁Mn₄,"  Solid State Comm. 18, 827.   

37.        E. Babíc and G. Grüner, “Interaction Effects in Dilute Alloys,"  Physica 84B,  37.  

38.        G. Mihály, K. Holczer, G. Grüner, L.D. Kunstelj, “Interchain Interactions and  Phase Transition in  NMeQn (TCNQ)₂,"  Solid State Comm. 19, 1091. 

39.        F. Woynarovich, L. Mihály, G. Grüner, “Coupled Charge Density Waves in Nearly One Dimensional Systems," Solid State Comm. 19, 1189. 

40.        K. Holczer, G. Mihály, K. Pintér, A. Jánossy, G. Grüner, W.G. Clark,  “Phase Transition in Py (TCNQ)₂,"  Lecture Notes in Physics 65 (Proceedings of the Conf.on Organic Conductors and Semiconductors, 1976), Springer Verlag, p. 507. 

41.        G. Mihály, K. Ritvay-Emandity, G. Grüner, “Interchain Coupling and Disorder in  Complex TCNQ Salts With Aromatic Donors,"  Lecture Notes in Physics 65 (Proceedings of the Conf. on Organic Conductors and Semiconductors, 1976), Springer Verlag, p. 507. 

42.        G. Mihály, K. Holczer, A. Jánossy, G. Grüner, M. Miljak, “TCNQ Salts With  Symmetric and Asymmetric Donors,"  Lecture Notes in Physics 65 (Proceedings of the Conf. on Organic Conductors and Semiconductors, 1976), Springer Verlag, p. 553.

1977

43.        G. Mihály, K. Ritvay-Emandity, A. Jánossy, K. Holczer, G. Grüner, “Single Crystal Conductivity of Bipyridine-TCNQ Salts,"  Solid State Comm.  21, 1115.   

44.        G. Mihály, A. Jánossy, G. Grüner, “Dimensionality and Disorder in TTT-I_1.6," Solid State Comm. 22, 771.  

45.        V. Zlatíc, G. Grüner, “Preasymptotic Charge Oscillations Around 3-D Impurities in Aluminum,"  J. de Phys. Lett. 38, L97.   

46.        G. Grüner, E. Babíc, “Impurity Interactions in Kondo Systems,"   Physica 86-88B,  850.   

47.        G. Mihály, G. Said, G. Grüner, M. Kertész, “2-3 Benzacridinium (TCNQ)₂: A Small Bandgap Conductor," Solid State Comm. 24, 97.  

48.        K. Kamarás, K. Ritvay-Emandity, G. Mihály, G. Grüner, N. Rysava, “Impurity Effects in the Organic Charge Transfer Salt Qn (TCNQ)₂,"  KFKI-31, (1977), J. Phys. C10, L423.  

49.        K. Kamarás, K. Ritvay-Emandity, G. Mihály, G. Grüner, “Electronic Spectra of the Organic Charge Transfer Salts TTT-I_n,"  Solid State Comm.   24, 93.   

50.        K. Holczer, G. Grüner, M. Miljak, J. Cooper, “Surface Magnetism in Organic ChargeTransfer Salts,"  Solid State Comm.  24, 97. 

51.        M. Miljak, B. Korin, J.R. Cooper, G. Grüner,  “Magnetic Susceptibility of the Organic Metal TTT₂I₃,"  Comm. Phys.  2, 193.  

52.        G. Grüner and A. Zawadowski, “Low Temperature Properties of Kondo Alloys, "Progress in Low Temperature Physics, Vol. 7, Ed. E. Brewer.

53.        G. Grüner and M. Minier, “Charge Perturbations Around Impurities in Metals," Advances in Physics,  26, No. 3, 231-284.    

1978

54.        K. Holczer, G. Mihály, A. Jánossy, G. Grüner, M. Kertész, “Complex TCNQ  Salts with Asymmetric Donors: Transport Properties,"  J. Phys.  C11, 4707.  

55.        M. Kürti, G. Mihály, G. Grüner, A. Jánossy,  “Nonohmic Electrical Conductivity in  Qn (TCNQ)₂,"  KFKI-29. N/A 

56.        K. Kamarás, G. Grüner, S. Sawatzky, “Optical Absorption in Complex TCNQ Salts," Solid State Comm.  27, 1171.  

57.        K. Kamarás, G. Mihály, G. Grüner, A. Jánossy, “Highly Conducting Organic Alloys: TTT₂I_xBr_3-x,"  Chem. Comm., 974. 

58.        T. Kemény, Z. Poko, G. Mihály, K. Holczer, G. Grüner,  “The Role of Solvent in Phase Transition of NMeQn (TCNQ)₂," Mol. Cryst. Liq. Cryst. 1. 

59.        M. Miljak, J. Cooper, G. Grüner, “Complex TCNQ Salts with Asymmetric Donors: II.  Magnetic Properties,"  J. Phys. C1. 

1979

60.        K. Kamarás and G. Grüner, “Optical Properties of the Charge Transfer Salts of   Tetra- thiotetracene,"  Solid State Comm. 30, 277.  

61.        K. Holczer, G. Grüner, G. Mihály, A. Jánossy,  “Defect Dependence of the  Dielectric Permeability of Qn (TCNQ)₂,"  Solid State Comm. 31, 145. 

62.        G. Mihály, A. Jánossy, J. Kürti, L. Forró, G. Grüner, “Nonohmic Conductivity  in Qn (TCNQ)₂,"  Lecture Notes on Phys.  95, 297 Springer Verlag.   

63.        G. Grüner, A. Jánossy, K. Holczer, G. Mihály,  “Disordered One Dimensional Conductors,"  Lecture Notes on Phys. 96, 246 Springer Verlag

64.        K. Holczer, G. Mihály, G. Grüner, A. Jánossy, “Decrease of Electronic Coherence      Length by Impurities in the Quasi-one-dimensional Charge Transfer Salt  Qn (TCNQ)₂," J. Phys. C 12, 1883.

65.        P.M. Chaikin, G. Grüner, I.F. Schegolev, E.B. Yagubskii, “Thermoelectric Power of TTT₂I_3+d"  Solid State Comm.  32, 1211.  

66.        E. Chock, G. Grüner, “Thermoelectric Power of Na_0.33V₂O₅," Solid State Comm.  36, 12.       

67.        L. Zuppiroli, G. Mihály, A. Jánossy, G. Grüner, “Effects of Neutron Irradiation  Induced Defects and Chemical Impurities on the dc Conductivity of TTT₂I₃," J. Phys. C1. 

68.        G. Grüner and S.K. Khanna, “Configurational  Entropy in the Organic Conductor  Qn (TCNQ)₂," Solid State Comm.  32, 1233.  

69.        G. Mihály, A. Jánossy, J. Kürti, L. Forró, and G. Grüner, “Nonlinear Transport in  Qn (TCNQ)₂,"  Phys. Stat. Sol.  B94, 287.

1980

70.        M. Miljak, B. Korin, J.R. Cooper, K. Holczer, G. Grüner, A. Jánossy,  “Low Temperature Magnetic Susceptibility of Some Quasi-one-dimensional Organic  Conductors,"  Journal of Magnetism and Magnetic Materials,  15, 219.  

71.        F. Devreux, M. Nechtschein, G. Grüner, “Charge Transport in the Organic  Conductor Qn (TCNQ)₂,"  Phys. Rev. Lett.  45, 53.  

72.        M. Morrow, W.N. Hardy, J.F. Carolan, A.J. Berlinsky, A. Jánossy, K. Holczer, G. Mihály, G. Grüner, S. Huizinga, A. Verwey, G.A. Sawatzky, “Metal Insulator Transition in MEM (TCNQ)₂,"  Can. J. Phys.  

73.        J. Sanny, G. Grüner, W.G. Clark, “Observation of Quasi-universal Magnetic Behavior in a Random Heisenber Antiferromagnetic Chain: Neutron Irradiated  Quinolinium (TCNQ)₂,"  Solid State Comm. 35, 657.  

74.        R. Lacoe, G. Grüner, P. Chaikin, “The Thermoelectric Power of MEM (TCNQ)₂," Solid State Comm.  36, 599. 

75.        M. Weger, G. Grüner, W.G. Clark, “Charge Density Wave Noise in NbSe₃," Solid State Comm.  35, 243.  

76.        G. Grüner, J. Sanny, L. Tippie, W.G. Clark, N.P. Ong, “Frequency Dependent Conductivity in NbSe₃,"  Phys. Rev. Lett.  45, 935.  

77.        A.J. Epstein, H.W. Gibson, P.M. Chaikin, G. Grüner, W.G. Clark,  “Frequency and Electric Field Dependent Conductivity in Metallic Polyacetilene,"  Phys. Rev. Lett. 45, 1730. 

78.        P.M. Chaikin, G. Grüner, E.M. Engler, R.L. Greene, “Study of Nonlinear  Electric Field Effects in (TMSF)₂PF₆," Phys. Rev. Lett. 45, 1874. 

1981

79.        S.K. Khanna, G. Grüner, R. Orbach, H. Beyeler, “Thermally Activated Microwave Conductivity in the Superionic Conductor Hollandite [K_1.54Mg_0.77Ti_7.23O₁₆],"                Phys. Rev. Lett.  47, 255.  

80.        G. Grüner, A. Zawadowski, P.M. Chaikin, “Nonlinear Conductivity and Noise Due to  Charge Density Wave Depinning in NbSe₃,"  Phys. Rev. Lett.  46, 511.  

81.        G. Grüner, “Frequency and Field Dependent Transport in Low Dimensional Conductors," Chemical Scripta A, 207.  

82.        A.H. Thompson, A. Zettl, G. Grüner, “Charge Density Wave Transport in TaS₃," Phys. Rev. Lett.  47, 64. 

83.        G. Grüner, A. Zettl, W.G. Clark, A.H. Thompson, “Observation of Narrow Band Charge Density Wave Noise in TaS₃," Phys. Rev. B 23, 6813.  

84.        C.M. Jackson, A. Zettl, G. Grüner, A.H. Thompson, “High Frequency Conductivity in the Charge Density Wave Semiconductor TaS₃,"  Solid State Comm. 39, 531.  

85.        W.W. Fuller, G. Grüner, P.M. Chaikin, N.P. Ong, “Impurity Effects in NbSe₃," Chemica Scripta (Sweden)  17, 135.  

86.        W.W. Fuller, G. Grüner, P.M. Chaikin, N.P. Ong, “Effect of Radiation Damage  on the Charge Density Wave Dynamics of NbSe₃,"  Phys. Rev.  B23, 6259. 

87.        G. Grüner, W.G. Clark, A.M. Portis, “Ac-induced Conductivity in the Charge Density Wave State in NbSe₃,"  Phys. Rev.  B24, 3641.  

88.        G. Grüner, A. Zettl, W.G. Clark, J. Bardeen, “Field and Frequency Dependence of  Charge Density Wave Conduction in NbSe₃,"  Phys. Rev. B  24, 724

89.        A. Zettl, G. Grüner, A.H. Thompson, “On the Nonlinear Charge Density Wave  Conductivity of TaS₃,"  Solid State Comm. 39, 899.  

90.        S. Alexander, J. Bernasconi, W.R. Schneider, R. Biller, W.G. Clark, G. Grüner, R. Orbach, A. Zettl, “Frequency Dependent Charge Transport in a One Dimensional Disordered Metal,"  Phys. Rev. B  24, 7474. 

91.        A.J. Epstein, H.W. Gibson, P.M. Chaikin, W.G. Clark, G. Grüner, “Electric  Field Dependent Conductivity of Metallic Polyacetylene,"  Chemica Scripta 17, 135.

  92.      S.K. Khanna, W.W. Fuller, G. Grüner, P.M. Chaikin, “Transport Properties of  Tetra- thiotetracene Iodide (TTT₂I_3-d) at Low Temperatures,"  Phys. Rev. B  24.

93.        S.K. Khanna, G. Grüner, R. Orbach, M. Beyeler, “Thermally Activated  Conductivity in the Superionic Conductor Hollandite [K_1.54Mg_0.77Ti_7.23}O₁₆]," Phys. Rev. Lett.  47, 255.  

94.        S. Oostra, B.V. Bodegom, S. Huizinga, G.A. Sawatsky, G. Grüner, T.P. Travers, “Molecular Motion Induced Order-disorder Transition in MEM (TCNQ)₂," Phys. Rev. B   24, 5004.  

95.        Y. Tomkiewicz, N.S. Shiven, T.D. Schultz, K. Thomann, L.R. Delhon, A. Zettl,  G. Grüner, T.D. Clarke,  “Spin and Charge Excitation in Polyacetilene,"  Solid State Physics RC 91 89 (No. 40326). 

1982

96.        G. Grüner, “Charge Density Wave Dynamics in NbSe₃ and TaS₃,"  Molecular Crystals and Liquid Crystals  81, 17.  

97.        M. Weger, G. Grüner, W.G. Clark, “Spectral Purity and Phase Coherence of Narrow Band Noise in NbSe₃,"  Solid State Comm.  44, 1179.  

98.        A. Zettl, G. Grüner, “Charge Density Wave Dynamics in TaS₃,"  Phys. Rev. B  25, 2081.  

99.        A. Zettl, G. Grüner, E.M. Engler, “Dynamical Response of the Spin-density-wave Mode in Tetramethyltetraselenofulvalene Hexafluorophosphate (TMTSF)₂PF₆," Phys. Rev. B  25, 1443.  

100.      A. Zettl, G. Grüner, “Onset of CDW Conduction: Switching and Hysteresis in NbSe₃," Phys. Rev. B  26, 2298.  

101.      A. Zettl, C.M. Jackson, A. Jánossy, G. Grüner, A. Jacobsen, A.H. Thompson, “Charge Density Wave Transition and Nonlinear Conductivity in NbSe₃," Solid State Comm.  43,  345.  

102.      J. Bardeen, E. Ben-Jacob, A. Zettl, G. Grüner, “Current Oscillations and Stability of Charge Density Wave Motion in NbSe₃,"  Phys. Rev. Lett.  49.   

103.      A. Zettl, G. Grüner, A.H. Thompson, “Charge Density Wave Transport in  Orthorhombic TaS₃I: Nonlinear Conductivity,"  Phys. Rev. B 26, 5760. 

104.      A. Zettl, G. Grüner, “Observation of Shapiro Steps in the Charge Density Wave State of NbSe₃,"  Solid State Comm.  46, 501. 

105.      A. Zettl, C.M. Jackson, G. Grüner, “Charge Density Wave Transport in Orthorhombic TaS₃II: Frequency Dependent Conductivity,"  Phys. Rev. B  26, 5773. 

1983

106.      G. Grüner, “Charge Density Wave Transport in Linear Chain Compounds,"  Comments on Solid State Physics  10, 183.   

107.      C.M. Jackson, A. Zettl, G. Grüner, I.J. DiSalvo, “Frequency Dependent Conductivity in HfTe₅ and ZrTe₅,"  Solid State Comm. 45, 247.   

108.      A. J\'anossy, M. Hardiman, G. Grüner, “Ac-dc Coupling Experiments in the Spin  Density Wave State of (TMTSF)₂PF₆,"  Solid State Comm. 21, 46.  

109.      A. Zettl, G. Grüner, “Broad Band Noise Associated With the Current Carrying Charge Density Wave State in  TaS₃,"  Solid State Comm. 46.  

110.      Pei-Ling Hsieh, C.M. Jackson, G. Grüner, “Disorder Effects in the Linear Chain  (TiS₃),"  Solid State Comm. 46, 505.  

111.      M. Maki, M. Kaiser, A. Zettl, G. Grüner, “Charge Density Wave Transport in a Novel Inorganic Chain Compound,  (TaSe₄)₂I,"  Solid State Comm. 46, 497.  

112.      A. Zettl, G. Grüner, “Charge Density Wave Transport in Orthorhombic  TaS_x:  III: Narrow Band `noise',"  Phys. Rev. B  28, 2091.  

113.      M. Weger, W.G. Clark, G. Grüner, “The Relaxation Oscillator Model of the  Narrow Band Noise in NbSe₃,"  J. de Phys. (Paris) Coll.  3, Suppl.  44, C3-1673.      

114.      R.A. Klemm, J.R. Schrieffer, G. Grüner, “Dynamics of Pinned Charge Density Waves in NbSe₃,"  J. de Phys. Coll. C  3, Tome 44, June.  N/A

115.      G. Grüner, A. Zettl, “Long Range Phase Coherence in the Current Carrying Charge Density Wave State,"  J. de Phys. Coll. C  3, Suppl.  44, 1631.    

116.      G. Grüner, A. Zettl, “Switching and Hysteresis in NbSe₃," J. de Phys.  Coll. C  3, Suppl.  44, 1745. 

117.      D.C. Johnston, J.P. Stokes, Pei-Ling Hsieh, G. Grüner, “Characterization of the CDW Transition in Orthorhombic TaS₃ by Thermoelectric Power and  Magnetic Susceptibility Measurements,"  J. de Phys. Coll.  C3, Suppl.  44. 

118.      G. Mozurkewich, G. Grüner, “Volume Dependence of Current Oscillations in  NbSe₃: A Finite Size Effect,"  Phys. Rev. Lett. 51, 24. 

119.      G. Mozurkewich, M. Maki, G. Grüner, “Size Dependence of Current Osillations in the Charge Density Wave Compound (TaSe₄)₂I,"  Solid State Comm.  48, 453.  (3 pages)

120.         G. Grüner, “Nonlinear and Frequency-dependent Transport Phenomena in Low-dimensional Conductors,"  Physica  8D, 1-34.  

 1984

121.      C.M. Jackson, G. Grüner, Z. Fisk, S. von Molnár, “Microwave Conductivity of  SmB₆,"  Phys. Rev. B 29, 4786.  

122.      G. Grüner, “Charge Density Wave Transport in Linear Chain Compounds," Physica 126B, 400.  

123.      A. Zettl, G. Grüner, “Phase Coherence in the Current Carrying Charge Density Wave State: ac-dc Coupling Experiments in NbSe₃,"  Phys. Rev. B  29, 755. 

124.      Wei-yu Wu, A. Jánossy, G. Grüner, “Correlation Between the Static Dielectric Constant and Threshold Electric Field for Sliding Charge Density Wave Conduction,"  Solid State Comm.  49, 1013.  

125.      S. Brown, G. Mozurkewich, G. Grüner, “Subharmonic Shapiro Steps, and Devil's Staircase Behavior in Driven Charge Density Wave Systems,"  Phys. Rev. Lett. 52, 2277.  

126.      Wei-yu Wu, L. Mihály, G. Mozurkewich, G. Grüner, “Low Frequency Behavior of Pinned CDW Condensates,"  Phys. Rev. Lett.  52, 2382.  

127.      L. Mihály, G. Grüner, “The Onset of Current Carrying Charge Density Wave State in TaS₃: Switching, Hysteresis, and Oscillation Phenomena,"  Solid State Comm.  50, 807. 

128.      J.P. Stokes, A.N. Bloch, A. Jánossy, G. Grüner, “Thermoelectric Aspects of Charge Density Wave Transport in TaS₃,"  Phys. Rev. Lett.  52, 5. 

1985

129.      Wei-yu Wu, L. Mihály, G. Mozurkewich, G. Grüner, “Frequency Dependent Conductivity of CDW Compounds,"  Proceeding of the International Conference on Charge Density Waves in Solids, Lecture Notes in Phys. Vol. 217, Eds. G. Hutiray, J. Solyom.  

130.      G. Grüner, “Coherent and Incoherent Effects in Charge Density Wave Transport, "Proceedings of the International Conference on Charge Density Waves in Solids, Lecture Notes in Phys. Vol.  217, Eds. G. Hutiray, J. Solyom.  

131.      D. Reagor, S. Sridhar, M. Make, G. Grüner, “Frequency Dependent Conductivity in  (TaSe₄)₂I,"  Phys. Rev. B  32, 8995.  

132.      D. Reagor, S. Sridhar, G. Grüner, “Inertial Dynamics of CDW Transport in NbSe₃,"  Proceeding of the International Conference on Charge Density Waves in Solids, Lecture Notes in Phys. Vol.  217, Eds. G. Hutiray, J. Solyom.  

133.      S.E. Brown, G. Mozurkewich, G. Grüner, “Subharmonic Shapiro Steps, Devil's Staircase and Synchronization in rf-driven CDW Conductors,"  Proceedings of the International Conference on Charge Density Waves in Solids, Lecture Notes in Physics, Vol. 217, Eds. G. Hutiray, J. Solyom. 

134.      G. Mozurkewich, P.M. Chaikin, W.G. Clark, G. Grüner, “Low Frequency Elastic Properties of Materials Containing a Sliding CDW,"  Proceedings of the International Conference on Charge Density Waves in Solids, Lecture Notes in Phys. Vol.  217, Eds. G. Hutiray, J. Solyom.  

135.      L. Mihály, T. Chen, B. Alavi, G. Grüner, “Relaxation of Metastable States in Blue Bronze K_0.3MoO₃,"  Proceedings of the International Conference on Charge Density Waves in Solids, Lecture Notes in Phys. Vol. 217, Eds. G. Hutiray, J. Solyom.  

136.      D.C. Johnston, M. Maki, G. Grüner, “Influence of Charge Density Wave Fluctuations on the Magnetic Susceptibility of the Quasi One Dimensional Conductor  (TaSe₄)₂I,"  Solid State Comm.  53, 5. 

137.      S.E. Brown, G. Mozurkewich, G. Grüner, “Harmonic and Subharmonic Shapiro Steps in Orthorhombic TaS₃,"  Solid State Comm.  54, 23.  

138.      S.E. Brown, A. Jánossy, G. Grüner, “Effect of A Temperature Gradient on the Current Oscillations in Moving Charge Density Waves,"  Phys. Rev. B 31, 6869. 

139.      A. Zettl, M. Kaiser, G. Grüner, “Non-equilibrium Transport in NbSe₃:  Effects  of A Temperature Gradient,"  Solid State Comm.  53, 8.)

140.      S. Brown, G. Grüner, “Shapiro Steps in Orthorhombic TaS₃,"  Phys. Rev. B  31, 8302.  

141.      A.K. Sood, G. Grüner, “Electric Field Dependence of the Ramon Phonon in the Charge Density Wave State of  TaS₃,"  Phys. Rev. B 32, 271.  

142.      S. Sridhar, D. Reagor, G. Grüner, “Complex Conductivity Measurements Between 26 and 110 GHz Using Complex Impedance Bridges,"  Rev. Sci. Instum.  56, 1946. 

143.      H.H.S. Javadi, S. Sridhar, G. Grüner, “Giant Conductivity Resonance in the Spin Density Wave State on An Organic Conductor,"  Phys. Rev. Lett.  55, 1216.  

144.      S. Sridhar, D. Reagor, G. Grüner, “Inertial Dynamics of Charge Density Waves  in TaS₃ and NbSe₃,"  Phys. Rev. Lett.  55, 1196.  

145.      G. Mozurkewich, P.M. Chaikin, W.G. Clark, G. Grüner, “Elastic Properties of Linear Charge Density Wave Materials in the Regime of Nonlinear Conduction," Solid State Comm.  56, 421. 

1986

146.      S.E. Brown, L. Mihály, G. Grüner,  “Long Range Remanent Deformations of Charge Density Waves in TaS₃ and NbSe₃,"  Solid State Comm. 58, 231.  

147.      D. Reagor, G. Grüner,  “Frequency Dependent Response of Pinned Charge Density Wave Condensates: Classical versus Quantum Description,"  Phys. Rev. Lett.  56, 659. 

148.      S.E. Brown, G. Grüner, L. Mihály,  “Interference Phenomena in Charge Density Waves for Nonsinusoidal External Drives,"  Solid State Comm.  57, 165.  

149.      Wei-yu Wu, L. Mihály, G. Mozurkewich, G. Grüner,  “Low Frequency Response of Pinned Charge Density Wave Condensates,"  Phys. Rev. B  33, 2444.  

150.      R.E. Thorne, J.R. Tucker, J. Bardeen, S.E. Brown, G. Grüner, “Phase Locking in Charge Density Wave Transport,"  Phys. Rev. B  33, 7342. 

151.      W.P. Beyermann, L. Mihály, G. Grüner, “Temperature Gradient Induced Open Circuit Electric Currents in Charge Density Wave Condensates,"  Phys. Rev. Lett.  56, 1948.  

152.      S.E. Brown, L. Mihály, G. Grüner, “Interference Effects in the Charge Density Wave Conductor NbSe₃,"  Physica  23D, 169.  

153.      D. Reagor, S. Sridhar, G. Grüner, “Inertial Dynamics of Pinned Charge Density Wave Condensates I. NbSe₃," Phys. Rev. B 34, 2212.   

154.      S. Sridhar, D. Reagor, G. Grüner, “Inertial Dynamics of Pinned Charge Density Wave Condensates II. Orthorhombic TaS₃," Phys. Rev. B   34, 2223. 

155.      G. Grüner, “Frequency Dependent Response of Pinned CDW Condensates," Physica  143B, 8-13.  

156.      G. Grüner, “Nonlinear Transport Due to Driven Collective Modes,"  Physica 23D, 145-154. 

1987

157.      L. Mihály, M. Crommie, G. Grüner, “The Dynamics of Partially Random Systems:  A Computer Simulation,"  Europhys. Lett.  4, 103.  

158.      A. Migliori, T. Chen, B. Alavi, and G. Grüner, “Ultrasound Anomaly At   T_c in YBa₂Cu₃O_y,"  Solid State Comm.  63, 827.  

159.    M. Underweise, M. Maki, B. Alavi, G Grüner, “Impurity Pinning Studies in   Nb_1-x Ta_xSe₃ Alloys,"  Solid State Comm.  64, 181.  

160.      W. Beyermann, B. Alavi, G. Grüner, “Surface Impedance Measurements in La_1.8Ba_0.2 CuO_4-y,"  Phys. Rev. B 35, 8826.  

161.      J.R. Cooper, B. Alavi, L-W. Zhou, W.P. Beyermann, G. Grüner, “Thermoelectric Power of Some High T_c Oxides,"  Phys. Rev. B 35, 8794.    

162.      J.R. Cooper, W.P. Beyermann, S.W. Cheong, G. Grüner, S. von Molnár, “Field Dependent Electrical Conductivity in Disordered Ge_1-xAu_x Alloys," Phys. Rev. B  36, 3913.  

163.      S.W. Cheong, S.E. Brown, J.R. Cooper, Z. Fisk, R.S. Kwok, D.E. Peterson, J.D. Thompson, G.L. Wells, E. Zirngiebl, R.B. Schwarz, G. Grüner,  “Normal State Properties of ABa₂Cu₃O_7-y Compounds (A-Y and Gd):  Electron-electron Correlations,"  Phys. Rev. B  36, 3913.  

164.      G. Grüner, “The Dynamics of Charge Density Waves in Low Dimensional Conductors and Superconductors,"  Eds. D. Jerome, L.G. Caron, Plenum Publ. Corp. 347-368        

165.      T. Chen, L. Mihály, G. Grüner,  “Nonlinear CDW Dynamics:  Third Harmonic Generation,"  Phys. Rev. B  36, 2931.    

166.      J.R. Cooper, L.W. Zhou, B. Dunn, C.T. Chu, B. Alavi, G. Grüner,  “Traces of Superconductivity in Sintered La₂CuO_4-y,"  Solid State Comm.  64, 253. 

167.      A. Philip, W. Mayr, T.W. Kim, G. Grüner,  “Dynamical Charge Density Wave Response in $(NbSe₄)₂I,"  Solid State Comm.  62, 521.  

168.      L. Mihály, T. Chen, G. Grüner,  “Switching, Hysteresis and Time Delay in Charge                                                                              Density Wave Conduction,"  Solid State Comm. 61, 751. 

1988

 169.     W.P. Beyermann, G. Grüner, Y. Dalicheouch, M.B. Maple, “Frequency Dependent Transport Properties of UPt₃,"  Phys. Rev. B  37, 353.  

170.      T.W. Kim, W.P. Beyermann, D. Reagor, G. Grüner,  “Complex Conductivity Measurements at Several Frequencies in the Millimeter Wave Spectral Range," Rev. Sci. Instr.  59, 1219.  

171.      J.R. Cooper, C.T. Chu, L.W. Zhou, B. Dunn, G. Grüner, “Determination of the Magnetic Field Penetration Depth in Superconducting Yytrium Barium Copper Oxide: Deviations from the BCS Laws," Phys. Rev. B  37, 638. 

172.      W.P. Beyermann, G. Grüner, Y. Dalicheouch, M.B. Maple,  “Relaxation Time Enhancement in the Heavy Fermion System  CePd₃,"  Phys. Rev. Lett.  60, 216. 

173.      T. Chen, L. Mihály, G. Grüner,  “Polarization Divergence in Driven Charge DensityWaves,"  Phys. Rev. Lett.  60, 464.  

174.      S.W. Cheong, Z. Fisk,  J.O. Willis, S.E. Brown,  J.D. Thompson, J.P. Remeika,    A.S. Cooper, R.M. Aikin, D. Schiferl, G. Grüner, “Novel Phase Transition in Non-antiferro-magnetically Ordered Crystals of La₂CuO₄,"  Solid State Comm.  65, 111

175.      S.W. Cheong, J.D. Thompson, Z. Fisk, G. Grüner,  “Magnetic Field Dependence of the Three Dimensional Ordering in La₂CuO_4-d," Solid State Comm.   66, 1019

176.      S.W. Cheong, Z. Fisk, R.S. Kwok, J.P. Remeika, J.D. Thompson, G. Grüner, “Electronic Anisotropy in Single Crystal La₂CuO₄,"  Phys. Rev. B  37, 5916.  

177.      A.M. Awasthi, J.P. Carini, B. Alavi, G. Grüner,  “Millimeter Wave Surface  Impedance Measurements of YBa₂Cu₃O_7-d  Ceramic Superconductors,"  Solid State Comm.  67, 373

178.      J.P. Carini, A.M. Awasthi, W. Beyermann, G. Grüner,  “Millimeter Wave Surface Resistance Measurements in Highly Oriented  YBa₂Cu₃O_7-d Thin Films,"  Phys. Rev. B  37, 9726. 

 179.     T.L. Hylton, A. Kapitulnik, M.R. Beasly, J.P. Carini, L. Drabeck, G. Grüner, “Weakly  Coupled Grain Model of High Frequency  Losses in  high-T_c Superconducting Thin  Films,"  J. Appl. Phys. Lett.  53, 1343.

 180.     I.D. Shaltiel, A. Grayevsky, V. Zevin, G. Grüner,  “Electron Spin Resonance Studies of the Charge Density Wave Phase of  (TaSe₄)₂I,"  Phys. Rev. B  38, 10075.      

181.      W.P. Beyermann, A.M. Awasthi, J.P. Carini, G. Grüner,  “Frequency Dependent Transport in Heavy Fermion Systems,"  J. of Magnetism and Mag. Mat. 76 & 77, 207-212.  

182.      G. Mihály,  G. Kriza, G. Grüner, “Heat Transport by Moving Charge Density Waves," Solid State Comm.  68, 993.  

183.      G. Mihály, T. Chen, G. Grüner, “Reversible and Remanent Charge Density Wave  Polarization at Low Temperatures,"  Phys. Rev. B  38, 12740

184.      G. Mihály, P. Beauchne, T. Chen, L. Mihály, G. Grüner,  “Electronic Anisotropy of Nonlinear Properties in the Low Temperature Sliding Charge Density Wave State of  K_0.3MoO₃,"  Phys. Rev. B  37, 6536.  

185.      S.E. Brown, J.O.Willis, B. Alavi, G. Grüner,  “Effect of Substitutional Impurities on the Low Temperature Specific Heat of  (TaSe₄)₂I,"  Phys. Rev. B  37, 6551.  

186.      G. Mihály, T. Chen, T.W. Kim, G. Grüner, “Low Temperature Charge Density Wave Dynamics,"  Phys. Rev. B  38, 3602.  

187.      G. Grüner, “Competing Interactions: Charge Density Waves and Impurities in  `Competing Interactions and Microstructures: Statics and Dynamics'," Eds. R. LeSar, A. Bishop, R. Heffner, Proceedings in Physics, Springer Verlag  202.  

188.      G. Grüner, “The Dynamics of Charge Density Waves,"  Rev. Mod. Phys. Vol. 60, 1129. 

189.      G. Grüner, “Charge Density Waves in Solids," Future Trends in Material Sciences, Ed. J. Keller, 119 (North Scientific). 

1989

190.      T.L. Hylton, M.R. Beasley, A. Kapitulnik, J.P. Carini, L. Drabeck, G. Grüner, “Surface Impedance Studies of the High- T_c Oxide Superconductors," IEEE Trans. Magnetics Vol.  25, 810. 

191.      J.P. Carini and G. Grüner, “Superconducting State Properties of the High-T_c Oxides:Penetration Depth and Surface Impedance,"  Physica Scripta, T25.  

192.      G. Grüner,  “Frequency Dependent Response of Charge and Spin Density Wave  Condensates,"  Synthetic Metals 29, F453-462.  

193.      D. Reagor and G. Grüner, “Effect of Impurities on the Charge Density Wave Dynamics in  Ta_1-xNb_xS₃ Alloys,"  Phys. Rev. B  39, 7626.  

194.      Y.M. Kim, G. Mihály, G. Grüner, “Onset of the Charge Density Wave Conductionat Low Temperatures in  K_0.3MoO₃,"  Solid State Comm.  69, 975.   

195.      L. Drabeck, J.P. Carini, G. Grüner, T. Hylton, K. Char, M.R. Beasley, “Power-law Temperature Dependence of the Electrodynamic Properties in Oriented YBa₂Cu₃O_7-d\ and  Y₂Ba₄Cu₈O_16-d Films,"  Phys. Rev. B  39, 785. 

196.      G. Kriza, G. Mihály, G. Grüner,  “Frequency Dependent Thermoelectric Power in K_0.3 MoO₃,"  Phys. Rev. Lett. 62, 2032.  

197.      L. Drabeck, J. Carini, G. Grüner, T.L. Hylton, A. Kapitulnik, M.R. Beasley, “Surface Impedance of High T_c Superconductors,"  International Microwave Symposium Digest, IEEE MTT-S, 551-554. 

 198.     L. Drabeck, G. Grüner, J.J. Chang, A. Inam, X.D. Wu, L. Nazar, T. Venkatesan, D. Scalapino, “Millimeter Wave Surface Impedance of  YBa₂Cu₃O₇ Thin Films, "Phys. Rev. B 40, 7350.

199.      G. Mihály, Y.M. Kim, G. Grüner, “Charge Density Wave Dielectrics: Pinned Fröhlich Mode at Low Temperatures,"  Europhys. Lett. 9, (5) 483-488.  

200.      G. Mihály, T.W. Kim, and G. Grüner, “Ac Response of the Charge Density Wave Mode in K_0.3MoO₃,"  Phys. Rev. B  39, 13009.  

201.      A.M. Awasthi, W.P. Beyermann, J.P. Carini, G. Grüner,  “Relaxation Time  Enhancement in the Heavy-fermion Systems  CePd₃ and UPt₃,"  Phys. Rev. B39, 2377.  

202.      G. Mihály and G. Grüner, “Phase Coherent Charge Density Wave Response versus Metastable States,"  Proceedings of the Third European Conference on Low  Dimensional Conductors and Superconductors, Dubrovnik, Yugoslavia.   N/A    

203.      L.D. Chang, M.J. Moskowitz, R.B. Hammond, M.M. Eddy, W.L. Olson, D.D. Casavant,  E.J. Smith, M. Robinson, L. Drabeck, G. Grüner, “Microwave Surface Resistance in T1-based Superconducting Thin Films,"  Appl. Phys. Lett.  5, 1357.

204.      A. Philipp, W. Mayr, T.W. Kim, B. Alavi, M. Maki, G. Grüner,  “Dynamics of the Charge Density Wave Mode in (NbSe₄)₂I,"  Phys. Rev. B  39, 7536. 

205.      T.W. Kim, D. Reagor, G. Grüner, K. Maki, A. Virosztek, “Temperature  Dependence of the Charge Density Wave Mass and Relaxation Time,"  Phys. Rev. B 40, 5372 .  

206.      R.S. Kwok, G. Grüner, S.E. Brown,  “Thermal Conductivity of Potassium Blue Bronze in the Nonohmic Regime,"  Solid State Comm. 72, 513.  

207.      D.W. Cooke, E.R Gray, R.J. Houlton, H.H.S. Javadi, M.A. Maez, B.L. Bennett, B. Rusnak, E.A. Meyer, P.N. Arendt, J.G. Beery, D.R. Brown, F.H. Garzon, I.D. Raistrick,  A.D. Rollett, B. Bolmaro, N.E. Elliott, N. Klein, G. Müller, S. Orbach,  H. Piel, J.Y. Josefowicz, D.B. Rensch, L. Drabeck, G. Grüner,  “Surface Resistance of YBa₂Cu₃O₇ Films Deposited on LaGaO₃ Substrates,"  Physica  C 162-164.  

208.      W.L. Olson, M. Eddy, T. James, R. Hammond, G. Grüner, L. Drabeck, “Preparation of Superconducting Tl-Cu-Ba-Cu Thin Films by Chemical Deposition," Appl. Phys. Lett.  55, 188. 

209.      G. Grüner, P. Monceau, “Dynamical Properties of Charge Density Waves," Charge Density Waves in Solids, Eds. L.P. Gor'kov, G. Grüner, Elsevier Science Publishers B.V.  

210.      G. Grüner, “Current Oscillations and Interference Effects in Driven Charge Density Wave Condensates," Progress in Low Temperature Physics, Vol. III., Ed. D.F. Brewer, Elsevier Science Publishers B.V. 195-269.  

211.      L.P. Gor'kov and G. Grüner, “Introduction." Charge Density Waves in Solids, Eds. L.P. Gor'kov and G. Grüner, Elsevier Science Publishers.  

212.      J. Carini, L. Drabeck, G. Grüner,  “The Surface Impedance of High-T_c Superconductors,"  Modern Phys. Lett. B 3, No. 1. 

213.      G. Grüner, “Properties and Parameters of the Superconducting Oxides," Physica C162-164, North Holland 8-11. 

1990

214.      P.C. Canfield, J.D. Thompson, G. Grüner, “Unifying Trends Found for the  V_NO_2N-1 Series by the Application of Hydrostatic Pressure,"  Phys. Rev. B  40, 4850. 

215.      R.S. Kwok, G. Grüner, and S.E. Brown,  “Fluctuations and Thermodynamics of the Charge Density Wave Transition,"  Phys. Rev. Lett.  65, 365.

216.      G. Grüner and W.P. Beyermann, “The Electrodynamics of Correlated Metals," Physica, North Holland Publ. Co.  B 163

217.      D.W. Cooke, E.R. Gray, H.H.S. Javadi, R.J. Houlton, B. Rusnak, E.A. Meyer, P.N. Arendt, N. Klein, G. Müller, S. Orback, H. Piel, L. Drabeck, G. Grüner,  J.Y. Josefowicz, D.B. Rensch, F. Krajenbrink, “Frequency Dependence of the Surface Resistance in High Temperature Superconductors," Solid State Comm. 73, 297. 

 218.     A. Inam, X.D. Wu, L. Nazar, M.S. Hedge, C.T. Rogers, T. Venkatesan, R.W. Simon, K. Daly, H. Padamsee, J. Kirchgessner, D. Moffat, D. Rubin, Q.S. Shu, D. Kalokitis, A. Fathy, V. Pendrick, R. Brown, B. Brycki, E. Belohoubek, L. Drabeck,  G. Grüner, R. Hammond, F. Gamble, B.M. Lairson, J.C. Bravman, “Microwave Properties of Highly Oriented YBa₂Cu₃O₇ Thin Films,"  Appl. Phys. Lett.  56, 1178.  

219.      L. Drabeck, K. Holczer, G. Grüner, D.J. Scalapino, “Ohmic and Radiation Losses in superconducting films,"  J. Appl. Phys. 68, (2) 892.  

220.      L. Drabeck, K. Holczer, G. Grüner, J.J. Chang, D.J. Scalapino, T. Venkatesan. “An Experimental Investigation of  YBa₂Cu₃O₇ Films at Millimeter Wave Frequencies," J. of Superconductivity  3, 317.

221.      P.C. Canfield, J.D. Thompson, G. Grüner, “Pressure-temperature Phase Diagrams for the Low Temperature Ground States of V_NO_2N-1 Materials,"  Physica, North Holland  B163, 191-193.  (3 pages)

222.      W.B. Beyermann, A.M. Awasthi, G. Grüner, Y. Dalichaouch, M.B. Maple, “Dynamical Mass Enhancement in  CeAl₃,"  Physica, North Holland B163, 584-586  

223.      D. Anselmetti, R. Wiesendanger, H.J. Guntherodt, G. Grüner, “Atomic-scale Surface Investigations of  K_0.3MoO₃  by Scanning Tunneling Microscopy,"  Europhys. Lett. 12, 241-245.  (5 pages)

224.      S. Donovan, Y. Kim, B. Alavi, L. Degiorgi, G. Grüner, “The Optical Spectrum of Charge Density Wave Condensates,"  Solid State Comm. No. 9  75, 721-724. (5 pages).

225.      D. Quinlivan, Y. Kim, K. Holczer, G. Grüner, F. Wudl, “Spin Density Wave Dynamics in (tetramethyltetraselenofulvalene)₂PF₆, (TMTSF)₂PF₆,"  Phys. Rev.Lett. 65, 1816.

226.      G. Grüner, “Surface Impedance of High- T_c Superconductors,"  in Electronic Properties of High-T_c Superconductors and Related Compounds, Eds. H. Kuzmany, M. Mehring, J. Fink,  Springer Series in Solid State Sciences  99, Springer Verlag.  (5 pages)

1991

227.      K.H. Young, McD. Robinson, G.V. Negrete, T. Yamashita, T. Hirai, H. Suzuki, H. Kurosawa, L. Drabeck, G. Grüner, “Microstructure and Microwave Properties of YBCO Thin Films Grown on MgO and SrTiO₃ by CVD,"  J. Mater. Res., Vol. 6, No. 11, 2259.

228.      L. Drabeck, K. Holczer, G. Grüner, J.J. Chang, D.J. Scalapino, A. Inam, X.D. Wu, L. Nazar, T. Venkatesan, “Surface Resistance of Laser Deposited YBa₂Cu₃O₇ Films," Phys. Rev. B  42, 10020.  

229.      K. Holczer, D. Quinlivan, G. Grüner, J.J. Chang, D. Scalapino, F. Wudl, “Temperature Dependence and Anisotropy of the Penetration Depth in K-(BEDT-TTF)₂Cu(NCS)₂,"Solid State Comm.  76, 499.

230.      O. Klein, K. Holczer, G. Grüner, J.J. Chang, D. Scalapino, F. Wudl, “The Electrodynamics of the Superconducting State of K-(BEDT-TTF)₂Cu(NCS)₂," International Conference on Organic Superconductivity, Lake Tahoe, CA, May 20-24, 1990.  Organic Superconductors, Eds. V. Kresin, W.A. Little, Planum Press, N.Y.

231.      M.M. Eddy, J.Z. Sun, R.D. Hammond, L. Drabeck, I.B. Ferreira, K. Holczer,  G. Grüner,  “Surface  Resistance Studies of Laser Deposited Superconducting  Tl₂Ba₂CaCu₂O₈ Films,"  J. of Appl. Phys.  70, 496.

232.      T.W. Kim, S. Donovan, G. Grüner, A. Philipp, “Charge Density Wave Dynamics in  (Ta_1-xNb_xSe₄)₂I Alloys,"  Phys. Rev. B  43, 6315.  (11 pages)

233.      G. Sparn, J.D. Thompson, S.M. Huang, R.B. Kaner, F. Diederich, R.L. Whetten, G. Grüner, K. Holczer, “Pressure Dependence of Superconductivity in Single-phase K₃C₆₀,"  Science 252, 1829.  (3 pages)

234.      K. Holczer, O. Klein, G. Grüner, J.D. Thompson, F. Diederich, R.L. Whetten,   “Critical Magnetic Fields in the Superconducting State of K₃C₆₀," Phys. Rev. Lett.  67, 271.  

235.      P.M. Allemand, K.C. Khemani, A. Koch, F. Wudl, K. Holczer, S. Donovan,  G. Grüner, J.D. Thompson, “Organic Molecular Soft Ferromagnetism in a Fullerene C₆₀," Science 253, 301.

236.      Y.J.Uemura, A. Keren, L.P. Le, G.M. Luke, B.J. Sternlieb, W.D. Wu, R.L.  Whetten, S.M. Huang, S. Lin, R.B. Kaner, F. Diederich, S. Donovan, G. Grüner, K. Holczer, “Magnetic Field Preparation Depth in  K₃C₆₀ Measured by Muon Spin Relaxation,"  Nature  352, 605.

 237.     G. Grüner, “The Electrodynamics of Spin Density Waves," Synthetic Metals 43, 3, 3767. 

238.      R.S. Kwok, G. Grüner, S.E. Brown, “Fluctuations and Thermodynamics of the  Charge Density Wave Phase Transition of  K_0.3MoO₃," Synthetic Metals 43, 3, 3845-3848. 

239.      S. Donovan, K. Holczer, and G. Grüner, “Search for a Collective Mode Resonance in  (TMTSF)₂NO₃,"  Synthetic Metals  43, 3, 3877-3880.  

240.      O.Klein, K. Holczer, G. Grüner, J.J. Chang, F. Wudl, “Electrodynamics of the Superconducting State of  K-(BEDT-TTF)₂Cu(NCS)₂,"  Phys. Rev. Lett.  66, 782.(4 pages)

241.      K. Maki, G. Grüner, “Effect of Coulomb Interaction on Spin Density Wave Dynamics,"Phys. Rev. Lett.  66, 782.  (4 pages)

242.      G. Mihály, Y. Kim, G. Grüner, “Dielectric Relaxation of the Pinned Spin Density Wave in  (TMTSF)₂PF₆,"  Phys. Rev. Lett.  66, 2806.  (4 pages)

243.      K. Holczer, L. Forro, L. Mihály, G. Grüner, “Observation of the Conductivity  Coherence Peak in Superconducting  Bi₂Sr₂CaCuO₈ Single Crystal,"  Phys. Rev. Lett. 67, 152.

244.      L. Degiorgi, B. Alavi, G. Mihály, G. Grüner, “Complete Excitation Spectrum of Charge Density Waves: Optical Experiments on K_0.3MoO₃,"  Phys. Rev. B  44, 7808.(12 pages)

245.      L. Degiorgi, G. Grüner, “Pinned and Bound Collective Mode State in Charge Density Wave Condensates,"  Phys. Rev. B 44, 820.

246.      Y. Kim, L. Degiorgi, B. Alavi, G. Grüner, “The Complete Frequency Dependent Response of Charge Density Wave Condensates,"  Synthetic Metals 41-43, 3959. (4 pages)

247.      L. Degiorgi and G. Grüner, “Bound Collective Mode State of Charge Density Wave Condensates,"  Europhysics Lett. 16, 97.

248.      A. Philipp, T.W. Kim, M. Maki, G. Grüner, “Linear and Nonlinear ac Response of  (Ta_1-xNb_xSe₄)₂I Alloys,"  Synthetic Metals  41-43, 4041-44.

249.      G. Grüner, “High T_c Superconductors at Microwave Frequencies,"  in Phenomenology and Applications of High Temperature Superconductors," Ed. M. Iniu, et al. Addison-Wesley.  (21 pages)

250.      P.M. Allemand, K.C. Khemani, A. Koch, F. Wudl, K. Holczer, S. Donovan, G. Grüner, J.D. Thompson, “Organic Molecular Soft Ferromagnetism in a Fullerene C₆₀,"  Science 253.  (3 pages)

251.      G. Grüner and K. Maki, “The Dynamics of Spin Density Waves,"  Comments Cond.Mat. Phys. 15, No. 3, 145 (18 pages)

252.      G. Mihály, Y. Kim, and G. Grüner, “Crossover in Low Temperature Spin Density Wave Transport,"  Phys. Rev. Lett.  67, 2713.

1992

253       W.P. Beyermann, M.F. Hundley, J.D. Thompson, R.N. Diederich, G. Grüner, “Low Temperature Specific Heat of  C₆₀,"  Phys. Rev. Lett.  68, 2046.(4 pages)

254.      W.H. Wong, M.E. Hanson, W.G. Clark, G. Grüner, J.D. Thompson, R.L. Whetten, S.M. Huang, R.B. Kaner, F. Diederich, P. Pettit, J.J. Andre, K. Holczer, “Normal State Magnetic Properties of  K₃C₆₀,"  Europhys. Lett.  18, 1.  (1 page)  

255.      O. Klein, K. Holczer, G. Grüner, “Klein, Holczer, Grüner Reply,"Phys. Rev. Lett.  68, 2407.  (1 page)

256.      O. Klein, K. Holczer, G. Grüner, G.A. Emelchenko, “Conductivity Coherence Peak in  YBa₂Cu₃O₇,"  J. Phys. I. France 2, 517. (6 pages)

257.      L. Degiorgi and G. Grüner, “Fluctuation Conductivity Above the Charge Density Wave Transition in  K_0.3MoO₃,"  J. Phys. I. France  2, 523.  (6 pages)

258.      S. Donovan, L. Degiorgi and G. Grüner, “Electodynamics of One Dimensional Metals: Optical Experiments on  (TMTSF)₂PF₆,"  Europhys. Lett.  19, 5.  (6 pages)

259.      I.B. Ferreira, A.M. Awasthi, L. Degiorgi, G. Grüner, Y. Dalichaouch, M.B. Maple,”The Electrodynamics of the Heavy Fermion State of CeAl₃,"  Solid State Comm. 83, 1.  (5 pages)

260.      L. Degiorgi, G. Grüner, P. Wachter, S.M. Huang, J. Wiley, R.L. Whetten, R.B. Kaner, K. Holczer, F.N. Diederich, “Electrodynamic Response of  Rb₃C₆₀,"  Phys. Rev. B 46, 11250.

261.      W.P. Beyermann, J.D. Thompson, M.F. Hundley, G. Grüner,  Reply to the Comment, `Low Temperature Specific Heat of C₆₀,"  Phys. Rev. Lett. 69, 2737.  

262.      L. Degiorgi, P. Wachter, G. Grüner, S.M. Huang, J. Wiley, R.B. Kaner, “Optical Response of the Superconducting  K₃C₆₀ and  Rb₃C₆₀,"  Phys. Rev. Lett.  69, 2987.       

263.      O. Klein, G. Grüner, S.M. Huang, J.B. Wiley, R.B. Kaner, “Electrical  Resistivity of      K₃C₆₀,"  Phys. Rev. B 46, 11247.

264.      G. Sparn, J.D. Thompson, R.L. Whetten, S.M. Huang, F. Diederich, G. Grüner,  K. Holczer, “Pressure and Field Dependence of Superconductivity in  Rb₃C₆₀,"  Phys. Rev.Lett.  68, 1228.

265.      S.E. Brown, K. Bartholomew, B. Alavi, G. Grüner, “Electrical Field  Dependence of Young's Modulus in the Spin Density Wave State of (TMTSF)₂PF₆," Phys. Rev. B 46, 10483.

 266.     S.E. Brown, B. Alavi, G. Grüner, K. Bartholomew, “Softening of Young's Modulus and Collective Spin Density Wave Transport in  (TMTSF)₂PF₆ (where TMTSF is tetramethyltetraselenafulvalene),"  Phys. Rev. B 46, 10483.

1993

267.      S. Donovan, Y. Kim, L. Degiorgi, and G. Grüner, “Phason Excitations in the SDW State of (TMTSF)₂PF₆," J. de Physique I, France  3, 1493-1498.

268.      L.P. Le, A. Keren, G.M. Luke, B.J. Sternlieb, W.D. Wu, and Y.J. Uemura, J.H. Brewer, and T.M. Riseman,R.V. Upasani, L.Y. Chiang, W. Kang, and P.M. Chaikin, T. Csiba and G. Grüner, “Muon-spin-rotation and Relaxation Studies in (TMTSF)₂X Compounds," Phys. Rev. B 48, 7284-7296. 

269.      M. Dressel, S. Bruder, and G. Grüner, K.D. Carlson, H.H. Wang, and J.M. Williams, `Low-temperature Microwave Surface Impedance of the Conventional Organic Superconductor k-(BEDT-TTF)₂Cu(NCS)₂" Phys. Rev.B Rapid Communications  48, 9906-9909. 

270.      A.M. Awasthi, L. Degiorgi, and G. Grüner, Y. Dalichaouch, and  M.P. Maple, “Complete Optical Spectrum of CeAl₃," Phys. Rev.  B 48, 10692-10700. 

271.      M. Dressel, L. Degiorgi, O. Klein, and G. Grüner, “The Electrodynamics of Organic Superconductors,"  J.Phys. and Chem. of Solids   54, 1411-1426. 

272.      L. Degiorgi and G. Grüner, “The Electrodynamics of the Charge Density Wave Condensate," Synthetic Metals, 55-57, 2688-2695. 

273.      O. Klein, S. Donovan, M. Dressel, and G. Grüner, “Microwave Cavity Perturbation Technique: Part I: Principles," International Journal of Infrared and Millimeter Waves,  14, 2423-2457.

274.      S. Donovan, O. Klein, M. Dressel, K. Holczer, and G. Grüner, “Microwave Cavity Perturbation Technique: Part II: Experimental Scheme," International Journal of Infrared and Millimeter Waves, 14, 2459-2487. 

275.      M. Dressel, O. Klein, S. Donovan, and G. Grüner, “Microwave Cavity Perturbation Technique: Part III: Applications," International Journal of Infrared and Millimeter Waves, 14, 2489-2517.

276.      L. Degiorgi, E.J. Nicol, G. Grüner, P. Wachter, and R.B. Kaner, “Optical Evidence of the Weak Coupling Pairing Mechanism in the Superconductors K₃C₆₀ and Rb₃C₆₀," ICMAS-93, Superconducting Materials, Eds. J. Etoumeau, J.B. Torrance, and H. Yamauchi, p. 391.  not available

1994

277.      G. Grüner, “The Dynamics of Spin-density Waves," Reviews of Modern Physics, Vol. 66, No. 1, 1-24.    

278.      L. Degiorgi, M. Dressel, G. Grüner, P. Wachter, N. Sato, and T. Komatsubara, “Optical Investigation of the Electrodynamic Response of UPd₂Al₃,"  Europhys.Lett., 25, 311-316. 

279.      S. Donovan, Y. Kim, L. Degiorgi, M. Dressel, G. Grüner, and W. Wonneberger, “Electrodynamics of the Spin-density-wave Ground State: Optical Experiments on (TMTSF)₂ PF₆," Phys. Rev. B  49, 3363-3377.

280.      L. Degiorgi, E.J. Nicol, O. Klein, G. Grüner, P. Wachter, S.-M. Huang, J. Wiley, and R.B. Kaner,”Optical Properties of the Alkali-metal-doped Superconducting Fullerenes: K₃C₆₀ and Rb₃C₆₀," Phys. Rev. B  49, 7012-7025.

281.      M. Dressel, G. Grüner, J.P. Pouget, A. Breining, and D. Schweitzer, “Field and Frequency Dependent Transport in the Two-dimensional Organic Conductor k-(BEDT-TTF)₂I₃,"  J. Phys. I  France 4, 579-594. 

282.      W.H. Wong, M.E. Hanson, W.G. Clark, B. Alavi, and G. Grüner, “Restoring Force and Displacement of the Pinned Spin Density Wave Condensate in (TMTSF)₂PG₆," Phys. Rev. Lett. 72, 2640-2643. 

283.      S. Brown and G. Grüner, “Charge and Spin Density Waves," Scientific American,  270, No. 4, 28-34.

284.      L. Degiorgi, H.R. Ott, M. Dressel, G. Grüner, and Z. Fisk, “Optical Probing of the Antiferromagnetic Phase Transitions in the Heavy-electron Compounds   U₂Zn₁₇ and UCu₅,"  Europhys. Lett., 26 (3), 221-226. 

285.      L. Degiorgi, G. Grüner, K. Kim, R.H. McKenzie, and P. Wachter, “Optical Probing of Thermal Lattice Fluctuations in Charge-density-wave Condensates," Phys. Rev. B  Rapid Communications  49, 14754-14757. 

286.      B.P. Gorshunov, A.A. Volkov, G.V. Kozlov, L. Degiorgi, A. Blank, T. Csiba, M. Dressel, Y. Kim, A. Schwartz, and G. Grüner, “Charge-density-wave Paraconductivity in K_0.3Mo0₃," Phys. Rev. Lett.  73, 308-311. 

287.      M. Dressel, L. Degiorgi, G. Grüner, P. Wachter, N. Sato, T. Komatsubara, and Y. Uemura, “Optical Investigations of the Electrodynamics of UPd₂Al₃," Physica B 199 & 200, 173-175.

288.      O. Klein, E.J. Nicol, K. Holczer and G. Grüner, “Conductivity Coherence Factors in Conventional Superconductors Nb and Pb," Phys. Rev. B 50, 6307-6316.

289.      L. Degiorgi, M.B. Hunt, H.R. Ott, M. Dressel, B.J. Feenstra, G. Grüner, Z. Fisk, and P. Canfield, `Optical Evidence of Anderson-Mott Localization in FeSi," Europhys. Lett.,  28 (5), 341-346.

290.      Y.M. Kim, R. Gaál, B. Alavi, and G. Grüner, “Effect of Impurities on the Low-temperature Nonlinear Spin-density-wave Transport," Phys. Rev. B  50, 13867-13870. 

291.      M. Dressel, O. Klein, G. Grüner, K.D. Carlson, H.H. Wang, and J.M. Williams, “The Electrodynamics of the Organic Superconductors k - (BEDT-TTF)₂Cu(NCS)₂ and k - (BEDT-TTF)₂Cu [N(CN)₂]Br," Phys. Rev. B  50, 13603-13615.

292.      L. Degiorgi, E.J. Nicol, G. Grüner, P. Wachter, and R.B. Kaner, “Optical Probing and Eliashberg Calculation of the Superconducting State in K₃C₆₀ and Rb₃C₆₀," Mol. Cryst. Liq. Cryst. 256, 267.  not available

293.      L. Degiorgi, H.R. Ott, G. Grüner, M. Dressel, and Z Fisk, “Influence of Magnetic Order on Optical Properties of the Heavy-electron Antiferromagnets in Strongly Correlated Electronic Materials," Eds. K. Bedell,Z. Wang, D. Meltzer, A. Balatsky, and E. Abrahams, Addison-Wesley Publ. Company, p. 96. not available

1995

294.      L. Degiorgi, H.R. Ott, M. Dressel, G. Grüner, C. Geibel, F. Steglich, and Z. Fisk, “Optical Investigation of the Antiferromagnetic Phase Transitions in Heavy-electron Compounds, Physica B 206-207, 441-443.  

295.      St. Thieme, L. Degiorgi, G. Grüner, and P. Wachter, “Thermal Lattice Fluctuations in (TaSe₄)₂I," Synth. Metals  70, 1305.

296.      A. Schwartz, M. Dressel, B. Alavi, A. Blank, S. Dubois, G. Grüner, B.P. Gorshunov, A.A. Volkov, G.V. Kozlov, S. Thierne, L. Degiorgi, and F. Levy, “Fluctuation Effects on the Electrodynamics of Quasi One-Dimensional  Conductors Above the Charge-density-wave Transition," Phys. Rev. B  52, 5643-5652.

 297.     M. Dressel, O. Klein, S. Bruder, G. Grüner, K.D. Carlson, H.H. Wang, and J.M. Williams,”Surface Impedance Studies on the Electrodynamical Response of Organic Superconductors,", Synthetic Metals 70, 895-898.

298.      M. Dressel, G. Grüner, K.D. Carlson, H.H. Wang, and J.M. Williams, “Studies of the Microwave Resistivity of k - (BEDT-TTF)₂Cu[N4(CN)₂]Cl," Synthetic Metals,  70, 927-928.

299.      M. Dressel, G. Grüner, J.P. Pouget, A. Breining, and D. Schweitzer, “Non-linear Transport in a-(BEDT-TTF)₂I₃,", Synthetic Metals  70, 929-930.

300.      Y.M. Kim, G. Mihály, H.W. Jiang, and G. Grüner, “The Low Temperature Spin Density Wave Transport:  Effects of Magnetic Field in  (TMTSF)₂PF₆ and Disorder in  (TMTSF)₂X's," Synthetic Metals  70, 1287-1290.

301.      M. Dressel, A. Schwartz, A. Blank, T. Csiba, G. Grüner, B.P. Gorshunov, A.A. Volkov, G.V. Kozlov, and L. Degiorgi, “Charge-density-wave Paraconductivity," Synthetic Metals 71, 1893-1894.

302.      L. Degiorgi and St. Thieme, B. Alavi and G. Grüner, R.H. McKenzie, K. Kim, and F. Levy, “Fluctuation Effects in Quasi-one-dimensional Conductors: Optical Probing of Thermal Lattice Fluctuations," Phys. Rev. B  52, 5603-5610. 

303.      A. Schwartz, M. Dressel, A. Blank, T. Csiba, and G. Grüner, A.A. Volkov, B.P. Gorshunov, and G.V. Kozlov, “Resonant Techniques for Studying the Complex Electrodynamic Response of Conducting Solids in the Millimeter and Submillimeter Wave Spectral Range," Rev. Sci. Instrum., Vol. 66, No. 4, 2943-2953.

1996

304.      M. Dressel and G. Grüner, “Frequency Dependent Conductivity in Organic Superconductors," in Mol. Cryst. Liq. Cryst., Vol. 284, 107-119.

305.      G. Grüner, “Density Waves in Linear Chain Compounds,"  Physics and Chemistry of Low-Dimensional Inorganic Conductors, NATO ASI Series  B, Vol. 354, 101-114.

306.      L. Degiorgi, St. Thieme, B. Alavi, G. Grüner, R.H. McKenzie, K. Kim, and F. Lévy, “Thermal Lattice Fluctuations in Quasi One-Dimensional Conductors:  Optical Experiments," Physics and Chemistry of Low-Dimensional Inorganic Conductors, NATO ASI Series  B, Vol. 354, 337-344.

307.      L. Degiorgi, M. Dressel, A. Schwartz, B. Alavi, and G. Grüner, “Direct Observation of the Spin-Density-WaveGap in  (TMTSF)₂PF₆," Phys. Rev. Lett. 76, (no.20), APS, 13 May 1996. p.3838-41.

308.      M. Dressel, A. Schwartz, G. Grüner, and L. Degiorgi, “Deviations from Drude Response in Low-Dimensional Metals:  Electrodynamics of the Metallic State of  (TMTSF)₂PF₆," Phys. Rev. Lett.  77, (no.2), APS, 8 July 1996. p.398-401.

309.      M. Dressel, O. Klein, S. Donovan, G. Grüner, “High Frequency Resonant Techniques for the Study of the Complex Electrodynamic Response in Solids," Ferroelectrics 176, (no.1-4), p.285-308.

310.      A. Schwartz, M. Dressel, and G. Grüner, B.P. Gorshunov, A.A. Volkov, and G.V. Kozlov, “Evidence of Charge-Density-Wave Fluctuations in the Low Frequency Optical Conductivity of  K_0.3Mo0₃ and (TaSe₄)₂I,"Ferroelectrics 176,  (no.1-4), p.309-19. 

311.    S. Donovan, A. Schwartz, M. Dressel, Y. Kim, O. Tráetteberg, R. Gáal, G. Grüner, “Effects of Anion Disorder on the Electrodynamical Response of A Spin Density Wave," Ferroelectrics 176 (no.1-4), p.343-52. 

312.      G. Grüner, “The Electrodynamics of Low Dimensional Metals," Journal de Physique I, 6, 1711.

 1997

313.      G. Mihály, A. Virosztek, and G. Grüner, “Thermal and Optical Gaps in Nearly One-Dimensional Compounds,"  Phys. Rev. B  55, 13456 

314.      L. Degiorgi, St. Thieme, H.R. Ott, M. Dressel, G. Grüner, Y. Dalichaouch, M.B. Maple, and Z. Fisk, “The Electrodynamic Response of Heavy-Electron Materials with Magnetic Phase Transitions," Z. Phys. B  102, 367

315.      G. Grüner, “The Electrodynamics of Interacting Electrons in Anisotropic Metals,"  Physica B 230, 966

316.      M. Dressel, G. Grüner, J.E. Eldridge, J.M. Williams, “Optical Properties of Organic Superconductors" Synthetic Metals 85, 1503 

317.      A. Schwartz, S. Donovan, M. Dressel, L. Degiorgi, and G. Grüner, “Normal State Electrodynamics of Compounds with Charge- and Spin-Density-Wave Ground States," Physica B  230, 1005-1007. 

318.      M. Dressel, L. Degiorgi, J. Brinckmann, A. Schwartz, and G. Grüner, “Optical Response of the Spin-Density-Wave Ground State," Physica B 230, 1008

319.      S. Donovan, A. Schwartz, and G. Grüner, “Observation of an Optical Pseudogap in UPt₃," Phys. Rev. Lett.79,1401

320.      A. Schwartz, S. Donovan, M. Dressel, L. Degiorgi, and G. Grüner, “Normal State Electrodynamics Properties of Charge- and Spin-Density-Wave Compounds," Synthetic Metals  86, 2129-2130.

321.      S. Donovan, M. Dressel, L. Degiorgi, A. Schwartz, A. Virosztek, and G. Grüner, “Electrodynamic Properties of (TMTSF)₂PF₆," Synthetic Metals 86, 2181

 1998

322.      Y. Suzumura, M. Tsuchiizu and G. Grüner, “Confinement of interchain hopping by umklapp scattering in two coupled chains," Physical Review B,  57, 15040 

323.      G. Grüner,”Pseudogaps and correlations in metals with electron-electron interactions," Physica B  244, 70

 324.     V. Vescoli, L. Degiorgi, W. Henderson, G. Grüner, K.P. Starkey and L.K. Montgomery , “Dimensionality-Driven Insulator-to-Metal Transition in the Bechgaard Salts," Science,  281, 1181

  325.    G. Grüner, “Waveguide Configuration Optical Spectroscopy”,in Millimeter and Submillimeter Wave Spectroscopy of Solids, edited by G. Grüner, Series: Topics in Applied Physics, Vol. No. 74, Ch. 4., 111-166, Springer Verlag, Berlin

326.      H-L Lee, J.P. Carini, D.V. Baxter, and G. Grüner, “Temperature-Frequency Scaling in Amorphous Niobium-Silicon near the Metal-Insulator Transition”,Physical Review Letters, 80, 4261  

327.      Schwartz, A., Dressel, M.,G. Grüner, Vescoli, V., Degiorgi, L., Giamarchi, T. “On-chain electrodynamics of metallic (TMTSF)₂X salts: Observation of Tomonaga-Luttinger liquid response”. Physical Review B, 58, 1261

328.      W. Henderson and G. Grüner,”Resonant Measurement Techniques Using Backward Wave Oscillators," International Conference on Millimeter and Submillimeter Waves, San Diego, July 1998.   

 329.     V. Vescoli, L. Degiorgi, B. Alavi and G. Grüner, “The spin-density-wave gap in (TMTSF)₂ClO₄", Physica B 244, 121 

330.      G. Grüner, The Electrodynamics of Heavy Fermions in “Physical Phenomena at High Magnetic Fields”, Eds., Z. Fisk, L. Gorkov and R. Schrieffer, World Scientific, Singapore, p. 142-147

1999

 331.     Y. Suzumura, M. Tsuchiizu and G. Grüner, “Confinement by umklapp scattering in two coupled chains,“ Synthetic Metals,.103, (1-3),.2191-2.

332.      W. Henderson, V. Vescoli, P. Tran, L. Degiorgi and G. Grüner, “Anisotropic Electrodynamics of Low Dimensional Metals: Optical Studies of (TMTSF)₂CIO₄,“ The European Physical Journal B 11, 365

333.      V. Vescoli, L. Degiorgi, M. Dressel, A. Schwartz, W. Henderson, B. Alavi, G. Grüner et al, “The spin-density-wave gap in the Bechgaard salts (TMTSF)₂X - Phys. Rev. B 60 (11), 8019

334.      M. Dressel, B.P. Gorshunov, N.E. Sluchanko, A.A. Volkov, W. Henderson, G. Grüner, A. Loidl and S. Kunii, “Dielectric Response of SmB₆ in the Millimeter Wave Range,“ International Conference on Solid State Spectroscopy, Physica Status Solidi (b), 215, 161

2000

335.      F. Zwick, M. Grioni, G. Margaritondo, V. Vescoli, L. Degiorgi, B. Alavi and G. Grüner, “The transition from a pseudogapped metal to an insulator: photoemission and optics of (TMTSF)₂ReO₄“ Solid State Comm..113 (4), 179-84

336.      V. Vescoli, F. Zwick, W. Henderson, L. Degiorgi, M. Grioni, G. Grüner, and L.K. Montgomery, "Optical and photoemission evidence for a Tomonaga-Luttinger liquid in the Bechgaard salts," Eur. Phys. J. B 13, 503  

337.      V. Vescoli, F. Zwick, J. Voit, H. Berger, M. Zacchigna, L. Degiorgi, M. Grioni, and G. Grüner, "Dynamical properties of the one-dimensional band insulator (NbSe₄)₃I", Phys. Rev. Lett. 84, 1272 - 1275  

338.      H.-L. Lee, J.P. Carini, D.V. Baxter, W. Henderson and G. Grüner, "Quantum-critical scaling for a metal-insulator transition", Science 287, 633 - 636

339.      N. E. Sluchanko, V. V. Glushkov, B. P. Gorshunov, S. V. Demishev, M. V. Kondrin, A. A. Pronin,  A. A. Volkov, A. K. Savchenko, G. Grüner, Y. Bruynseraede, V. V. Moshchalkov and S. Kunii, “Intragap states in SmB₆”, Phys. Rev. B 61 (15),9906-9909

340.      P. Tran, B. Alavi, and G. Grüner, “Charge Transport along the l DNA Double Helix”, Phys Rev Lett 85, 1564-1567

341.      J. Voit, L. Parfetti, F. Zwick, G. Margaritondo, G. Gruner, H. Hochst and M. Grioni, “Electronic Structure of solids with Competing Periodic Potentials”, Science 290, 501-503

342.      R. Bruinsma, G. Grüner, M.R. D'Orsogna, and J.Rudnick, “Fluctuation-facilitated charge migration along DNA” Phys Rev Lett 85,4393

343.      Kwanghee Lee, Reghu Menon,  A. J. Heeger, K. H. Kim, Y. H. Kim, A. Schwartz, M. Dressel, and G. Grüner, “Density-wave charge dynamics in conducting polypyrrole”, Phys. Rev. B 61, 1635-1638 (2000)

2001

344.      G. Grüner, “Pseudogaps in nearly one-dimensional metals”, Journal of Phys and Chem of Solids 62, 89-92

345.      L. Degiorgi, F.B.B. Anders and G. Grüner, "Charge excitations in heavy electron metals", The European Physical Journal B 19 , 167-170

346.      Helgren E, Grüner G, Ciofalo MR, Baxter DV, Carini JP. “Measurements of the complex conductivity of Nb_xSi_1-x alloys on the insulating side of the metal-insulator transition”, Physical Review Letters, 87, 116602/1-4. (2001)

2001

347. M. Dressel, N. Kasper, K. Petukhov, B. Gorshunov, G. Grüner, M. Huth, and H. Adrian, “Nature of Heavy Quasiparticles in Magnetically Ordered Heavy Fermions UPd₂Al₃ and UPt₃”, Phys. Rev. Lett. 88, 186404 (2002)

348.      Tran P, Donovan S, Grüner G., “Charge excitation spectrum in UPt₃”,  Physical Review B-Condensed Matter.65, 205102/1-8 (2002)

 349.     E. Helgren, N. P. Armitage and G. Grüner, “Electrodynamics of a Coulomb Glass in n-type Silicon”, Phys. Rev. Lett. 89, 246601

2003

350.      N.P. Armitage, E. Helgren, G. Grüner, Taxonomy of Electron Glasses, 189-197, in Concepts in Electron Correlation, Proceedings of the ARW NATO Workshop, Hvar, Croatia, October 2002, eds. A.C. Hewson and V. Zlatic (Kluwer Academic Publishers, The Netherlands, 2003)

351.      A. Montrichok, G. Grüner, and G. Zocchi, “Trapping intermediates in the melting transition of DNA oligomers”, Europhys. Lett. 62, 452 (2003)

352.      Alexander Star, Jean-Christophe P. Gabriel, Keith Bradley, and George Grüner, “Electronic Detection of specific Protein Binding Using Nanotube FET Devices”, Nano Lett. 3, 459-463 (2003)

353.      Keith Bradley, John Cumings, Alexander Star, Jean-Christophe P. Gabriel, and George Grüner, Influence of Mobile Ions on Nanotube Based FET Devices”, Nano Lett. 3, 639-641 (2003)

354.      K. Bradley, J-C P Gabriel and G. Gruner, “Flexible Nanotube Electronics”, Nano Lett 3,1353-1355

355.      Bradley, K., Gabriel, J.-C. P., Briman, M., Star, A., Grüner, G., “Charge Transfer from Ammonia Physisorbed on Nanotubes”,Phys. Rev. Lett. 91, 218301

356.      Star, A., Han, T.-R., Gabriel, J.-C. P., Bradley, K., Grüner, G., “Interaction of Aromatic Compounds with Carbon Nanotubes: Correlation to the Hammett parameter of the substituent and measured carbon nanotube FET response”,Nano Lett. 3, 1421-1423.

357       Bradley, K., Gabriel, J.-C. P., Star, A., Grüner, G., “Short-Channel Effects in Contact-Passivated Nanotube Chemical Sensors”,Appl. Phys. Lett. 83, 3821-3823.

358.      Star, A., Bradley, K., Gabriel, J.-C., Grüner, G., “Nano-Electronic Sensors: Chemical Detection Using Carbon Nanotubes”,Pol. Mater.: Sci. Eng. 89, 204.

359.      Star, A., Han, T.-R., Joshi, V., Grüner, G.,“Polymer Coatings of Carbon Nanotube Sensors”, Polymer Prep., 44, 201. 

360.      A. Star,  K. Bradley, J.-C. P. Gabriel, G. Grüner, “Nano-electronic sensors: Chemical detection using carbon nanotubes”,  Polymeric Materials: Science & Engineering 89, 204. (2003)

361.      A. Star, T.-R. Han, V. Joshi, G. Grüner, “Polymer coatings of carbon nanotube sensors”, Polymer Preprints, 44, 201. (2003)

362.      – J. R. Stetter, K. Bradley, J. Cumings, J.-C. P. Gabriel, G. Grüner, A. Star, “Nano-electronic sensors; Practical device designs for sensors”, Nanotech, 3, 313-316 (2003)

2004

363.      E. Helgren, N.P. Armitage, G. Gruner, “The Frequency Dependent Conductivity of Electron Glasses”, Phys. Rev. B 69, 014201 (2004)

364.      N.P. Armitage, M. Briman, G. Gruner,  “Charge Transfer and Charge Transport on the Double Helix”, Phys. Stat. Sol. 241, 69-75 (2004)

365.      N.P. Armitage, J-C P Gabriel and G. Gruner, “Quasi-Langmuir–Blodgett thin film deposition of carbon nanotubes”, J. Appl. Phys.. 95, 3228-3230  

366.      Bradley, K., Briman, M., Star, A., Grüner, G., “Charge Transfer from Adsorbed Proteins”, Nano Lett. 4, 253-256  

367.      Briman, M., Armitage, N. P., Helgren, E., Gruner, G., “Dipole Relaxation Losses in DNA”, Nano Lett., 4, 733 (2004)

368.      A. Star, Y. Lu, K. Bradley, G. Grüner, “Nanotube optoelectronic memory devices”,  Nano Lett 4, 1587–1591 (2004)

369.      A. Star, V. Joshi, T.-R. Han, M. V. P. Altoé, G. Grüner, J. F. Stoddart, “The electronic detection of the enzymatic degradation of starch”, Org. Lett. 6, 2089 – 2092

370.      A. Star, T.-R. Han, V. Joshi, J.-C. P. Gabriel, G. Grüner, “Nanoelectronic carbon dioxide sensors”, Adv. Mater 16, 2049-2052

371.      L. Hu, D.S. Hecht and G. Grüner, “Percolation in Transparent and Conducting Carbon Nanotube Networks”, Nano Letters 4, 2513-2517 (2004)

372.      A. Star, K. Bradley, J.-C. P. Gabriel, G. Grüner, “Carbon nanotube nanoelectronic devices for chemical detection in liquid hydrocarbons”, Fuel Chemistry Division Preprints 2004, xx, xxx

2005

373.      G. Grüner, Carbon Nanotube Transistors for Biosensing Applications, 175 – 180, in Nanofabrication: Technologies, Devices, and Applications, Proceedings of SPIE, Vol. 5592, Philadelphia, Pennsylvania, USA, October 2004, eds. Warren Y-C. Lai, Stanley Pau, O. Daniel Lopez (SPIE, Bellingham, WA, 2005)

374.      Keith Bradley, Alona Davis, Jean-Christophe P. Gabriel, and G. Grüner, “Integration of Cell Membranes and Nanotube Transistors”, Nano Lett 5, 841-845 (2005)

375.      E.  Artukovic, M. Kaempgen, D. S. Hecht, S. Roth, G. Grüner, “Transparent and Flexible Carbon Nanotube Transistors”, Nano Lett.5. 757-760 (2005)

376.      G. Grüner “Carbon Nanotube Transistors for Biosensing Applications,”, Analytical and Bioanalytical Chemistry (to be published)

Conference Publications

1.        Nano-electronic sensors: Chemical detection using carbon nanotubes – A. Star,* K. Bradley, J.-C. P. Gabriel, G. Grüner, Polymeric Materials: Science & Engineering 2003, 89, 204.

2.        Polymer coatings of carbon nanotube sensors – A. Star,* T.-R. Han, V. Joshi, G. Grüner, Polymer Preprints 2003, 44, 201.

3.        Carbon nanotube nanoelectronic devices for chemical detection in liquid hydrocarbons – A. Star,* K. Bradley, J.-C. P. Gabriel, G. Grüner, Fuel Chemistry Division Preprints 2004.

4.        Nano-electronic sensors; Practical device designs for sensors – J. R. Stetter, K. Bradley, J. Cumings, J.-C. P. Gabriel, G. Grüner, A. Star, Nanotech 2003, 3, 313-316.

5.        G. Gruner, Carbon Nanotube Transistors for Biosensing Applications, 175 - 180, in Nanofabrication: Technologies, Devices, and Applications, Proceedings of SPIE, Vol. 5592, Philadelphia, Pennsylvania, USA, October 2004, eds. Warren Y-C. Lai, Stanley Pau, O. Daniel Lopez (SPIE, Bellingham, WA, 2005) (pdf)

Books

1.         G. Grüner,”Density Waves in Solids”,Addison-Wesley Publishing Company, 1994.

2.         Japanese edition of the above book.

3.         M. Dressel and G. Grüner, ``Electrodynamics of Solids: Optical Properties of Electrons in Matter'', Cambridge University Press, Cambridge 2002