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-I1.6," 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-In,"  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: TTT2IxBr3-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 TTT2I3+d"  Solid State Comm.  32, 1211.  

66.        E. Chock, G. Grüner, “Thermoelectric Power of Na0.33V2O5," 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 [K1.54Mg0.77Ti7.23O16],"                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 (TTT2I3-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 [K1.54Mg0.77Ti7.23}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, 117