Surjit Singh, a diehard movie fan(atic), period.
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Refereed Papers

List of Publications of
Surjit Singh

  • All of the following papers are in refereed journals.
  • Short communications have been marked with an asterisk.
  • I am proud of the fact that I have 22 papers with the world-famous author, Raj Kumar Pathria.
  • I am probably his biggest collaborator.
  • I have published in all branches in physics (Phs. Rev. A, B, D and E), except nuclear physics. Could not fine a decent nuclear physics co-worker.
  • I am also proud of my 9 papers in Phys. Rev. Letts.


Here are four of my most important co-writers (in chronological order).

RKPathria

Raj Pathria

David Jasnow

David Jasnow

GWilseRobinson

G Wilse Robinson

REWilde

Richard Wilde

Publications from the University of Pittsburgh

 

1. M. N. Barber, D. Jasnow, S. Singh and R. A. Weiner

 

Critical Behavior of the Spherical Model with Enhanced Surface Exchange

 

J. Phys. C7, 3491 (1974)

 

2. S. Singh and D. Jasnow

 

Crossover Scaling Function for Exchange Anisotropy: XY and Planar Models

 

Phys. Rev. B11, 3445 (1975)

 

3. S. Singh and D. Jasnow

 

Crossover Scaling Function for Exchange Anisotropy: Heisenberg to XY-like Crossover

 

Phys. Rev. B12, 493 (1975)

 

4. S. Singh, D. Jasnow and M. N. Barber

 

Critical Behavior of the Spherical Model with Enhanced Surface Exchange: Two Spherical Field Model

 

J. Phys. C8, 3408 (1975)

 

Publications from India

 

5. G. P. Singh and S. Singh

 

Acoustic Longitudinal Mode Coupling to the Order Parameter and its Effect on the Ferroelectric Phase Transition

 

J. Phys. C12, 995 (1979)

 

*6. G. P. Singh, S. Singh and B. K. Basu

 

Electrostrictive Effects in RbH2 PO4

 

Ferroelectrics 25, 519 (1980)

 

*7. B. Dey and S. Singh

 

A New Phonon Frequency Distribution Function for Quasi-Two-Dimensional Systems

 

Phys. Lett. A81, 147 (1981)

 

*8. P. Shukla and S. Singh

 

Spin-Glass Dynamics in the Spherical Model

 

J. Phys. C14, L81 (1981)

 

*9. P. Shukla and S. Singh

 

A Quantum Spherical Model of Spin-Glass

 

Phys. Lett. A81, 477 (1981)

 

10. P. Shukla and S. Singh

 

Classical and Quantum Spherical Models of Spin-Glasses: A Complete Treatment of Statics and Dynamics

 

Phys. Rev. B23, 4661 (1981)

 

*11. W. L. Basaiawmoit and S. Singh

 

Crossover Behavior of the Susceptibility of Quasi-Two-Dimensional Ising Model: g=0 Behavior

 

Phys. Lett. A88, 251 (1982)

 

*12. W. L. Basaiawmoit and S. Singh

 

Scale-Factor Universality in the Anisotropic Crossover Behavior of the Susceptibility of Quasi-Two-Dimensional Ising Model

 

Phys. Lett. A89, 313 (1982)

 

*13. S. Singh and P. N. Pandita

 

Critical Behavior of a Relativistic Bose Gas with Pair Production

 

Phys. Lett. A92, 65 (1982)

 

*14. S. Singh

 

Surface Properties of an Ideal Relativistic Bose Gas with Pair Production

 

Phys. Lett. A93, 70 (1982)

 

15. W. L. Basaiawmoit and S. Singh

 

Crossover Scaling Function for the Lattice Anisotropy of the Quasi-Two-Dimensional Ising Model

 

J. Phys. C16, 369 (1983)

 

16. S. Singh

 

Kronig-Penney Model in Reciprocal Lattice Space

 

Am. J. Phys. 51, 179 (1983)

 

17. S. Singh and P. N. Pandita

 

Scaling and Universality of the Thermodynamics and Correlations of an Ideal Relativistic Bose Gas with Pair Production

 

Phys. Rev. A28, 1752 (1983)

 

*18. P. N. Pandita and S. Singh

 

Supersymmetric Phase Transition

 

Phys. Rev. Lett. 50, 1550 (1983)

 

*19. S. Singh

 

Crossover Scaling Behavior of Quasi-One-Dimensional n-Vector Models

 

Phys. Lett. A96, 225 (1983)

 

20. S. Singh and P. N. Pandita

 

Some Anomalies in the Treatment of Ideal Extreme Relativistic Bose Gas Condensation

 

Phys. Rev. A28, 3137 (1983)

 

Publications from Canada

 

21. S. Singh and R. K. Pathria

 

Bose-Einstein Condensation in Finite Non-Interacting Systems: A Relativistic Bose Gas with Pair Production

 

Phys. Rev. A30, 442 (1984)

 

22. S. Singh and R. K. Pathria

 

Bose-Einstein Condensation in an Einstein Universe

 

J. Phys. A17, 2983 (1984)

 

*23. P. N. Pandita and S. Singh

 

Response to a Comment on Paper Number 18

 

Phys. Rev. Lett. 52, 2006 (1984)

 

24. S. Singh and R. K. Pathria

 

Bose-Einstein Condensation in Finite Non-Interacting Systems: A Relativistic Bose Gas with Pair Production II

 

Phys. Rev. A30, 3198 (1984)

 

25. S. Singh and R. K. Pathria

 

Finite-Size Scaling for the Bose Condensate

 

Can. J. Phys. 63, 358 (1985)

 

26. S. Singh and R. K. Pathria

 

Privman-Fisher Hypothesis on Finite Systems: Verification in the Case of a Relativistic Bose Gas with Pair Production

 

Phys. Rev. A31, 1816 (1985)

 

27. S. Singh and R. K. Pathria

 

Privman-Fisher Hypothesis on Finite Systems: Verification in the Case of the Spherical Model of Ferromagnetism

 

Phys. Rev. B31, 4483 (1985)

 

*28. S. Singh and R. K. Pathria

 

Phase Transition in Finite Systems: Influence of Geometry on the Approach Toward Bulk Critical Behavior

 

Phys. Rev. Lett. 55, 347 (1985)

 

29. S. Singh and R. K. Pathria

 

Finite-Size Effects in the Spherical Model of Ferromagnetism: Antiperiodic Boundary Conditions

 

Phys. Rev. B32, 4618 (1985)

 

*30. S. Singh and J. R. Banavar

 

Random Field Critical Behavior: Finite-Size Effects

 

Phys. Rev. Lett. 55, 2220 (1985)

 

*31. S. Singh and R. K. Pathria

 

Spin-Spin Correlations in Finite Systems: Scaling Hypothesis and Corrections to Bulk Behavior

 

Phys. Rev. B33, 672 (1986) (Rapid Communications)

 

32. S. Singh, R. K. Pathria and M. E. Fisher

 

Finite-Size Effects in the Spherical Model of Ferromagnetism: Zero-Field Susceptibility under Antiperiodic Boundary Conditions

 

Phys. Rev. B33, 6415 (1986)

 

*33. S. Singh and R. K. Pathria

 

Response to a Comment on Paper Number 28

 

Phys. Rev. Lett. 56, 2226 (1986)

 

*34. S. Singh and R. K. Pathria

 

Role of Fluctuations in Determining Finite-Size Effects in a System Undergoing Phase Transition

 

Phys. Rev. B34, 2045 (1986) (Rapid Communications)

 

35. S. Singh and P. N. Pandita

 

Phase Transition in a Supersymmetric Theory

 

Phys. Rev. D34, 1859 (1986)

 

*36. S. Singh and R. K. Pathria

 

Finite-Size Scaling of O(n) Models in Higher Dimensions

 

Phys. Lett. A118, 131 (1986)

 

37. S. Singh and R. K. Pathria

 

Finite-Size Scaling for a Relativistic Bose Gas with Pair Production

 

Phys. Rev. A35, 4814 (1987)

 

38. J. K. Srivastava, J. A. Kulkarni, S. Ramakrishnan, S. Singh, V. R. Marathe, G. Chandra, V. S. Darshane and R. Vijayaraghavan

 

The Spin-Glass Behavior of Disordered Spinel Ferrite Co2TiO4

 

J. Phys. C20, 2139 (1987)

 

*39. J. K. Srivastava, S. Ramakrishnan, V. R. Marathe, G. Chandra, R. Vijayaraghavan, J. A. Kulkarni, V. S. Darshane and S. Singh

 

Magnetic Behavior of the Co2-x Zn xTiO4 and Co2SnO 4 Systems

 

J. Appl. Phys. 61, 3622 (1987)

 

40. S. Singh and R. K. Pathria

 

Spin-Spin Correlations in Finite Systems with O(n) Symmetry: Scaling Hypothesis and Corrections to Bulk Behavior

 

Phys. Rev. B36, 3769 (1987)

 

41. S. Singh and R. K. Pathria

 

Finite-Size Scaling for a Relativistic Bose Gas in an Einstein Universe

 

J. Phys. A20, 6357 (1987)

 

42. S. Singh and R. K. Pathria

 

Phase Transition in Finite Systems with O(n) Symmetry: Magnetization and Susceptibility in the Presence of an External Field

 

Phys. Rev. B37, 7806 (1988)

 

43. S. Singh and R. K. Pathria

 

Finite-Size Scaling of O(n) Models in Higher Dimensions

 

Phys. Rev. B38, 2740 (1988)

 

Publications from USA

 

44. S.-B. Zhu, S. Singh and G. W. Robinson

 

Breakdown of Brownian Motion Model in Ultrafast Dynamics

 

Phys. Rev. A40, 1109 (1989)

 

45. S. Singh and R. K. Pathria

 

Analytical Evaluation of a Class of Lattice Sums in Arbitrary Dimensions

 

J. Phys. A22, 1883 (1989)

 

46. S. Singh and R. K. Pathria

 

Finite-Size Scaling of O(n) Models with Long Range Interactions

 

Phys. Rev. B40, 9238 (1989)

 

*47. G. W. Robinson, S. Singh, R. Krishnan, S.-B. Zhu and J. Lee

 

Aspects of Modern Condensed Phase Chemistry

 

J. Phys. Chem. 94, 4 (1990)

 

48. S. Singh and R. K. Pathria

 

Finite-Size Scaling in Arbitrary Dimensions

 

J. Phys. A23, 4619 (1990)

 

*49. S. Singh, R. Krishnan and G. W. Robinson

 

Theory of Activated Rate Processes with Space-Dependent Friction

 

Chem. Phys. Lett. 175, 338 (1990)

 

50. S.-B. Zhu, S. Singh, J. Lee and G. W. Robinson

 

Velocity Dependence of Friction

 

Chem. Phys. 152, 221 (1991)

 

51. S.-B. Zhu, S. Yao, J.-B. Zhu, S. Singh and G. W. Robinson

 

A Flexible/Polarizable Simple Point Charge Water Model

 

J. Phys. Chem. 95, 6211 (1991)

 

52. S.-B. Zhu, S. Singh and G. W. Robinson

 

A New Flexible/Polarizable Water Model

 

J. Chem. Phys. 95, 2791 (1991)

 

53. S. Singh and R. K. Pathria

 

Exact Results for a Finite-Sized Spherical Model at the Borderline Dimensionality Four

 

Phys. Rev. B45, 9759 (1992)

 

54. R. Krishnan, S. Singh and G. W. Robinson

 

Space-Dependent Friction in the Theory of Activated Rate Processes

 

Phys. Rev. A45, 5408 (1992)

 

*55. S. Singh, R. Krishnan and G. W. Robinson

 

Critical Phenomena and Scaling Behavior in Theories of Activated Barrier Crossing

 

Phys. Rev. Lett. 68, 2608 (1992)

 

56. R. Krishnan, S. Singh and G. W. Robinson

 

Space-Dependent Friction in the Theory of Activated Rate Processes: The Hamiltonian Approach

 

J. Chem. Phys. 97, 5516 (1992)

 

57. S.-B. Zhu, S. Singh and G. W. Robinson

 

Field-Perturbed Water

 

Adv. Chem. Phys. 85 (3), 627 (1993)

 

58. S.-B. Zhu, J.-B. Zhu, J. Lee, G. W. Robinson and S. Singh

 

Ionic Dissociation Dynamics in a Polarizable Liquid

 

J. Mol. Liq. 57, 91 (1993)

 

59. M. Vedamuthu, S. Singh and G. W. Robinson

 

The Properties of Liquid Water: Origin of Density Anomalies

 

J. Phys. Chem. 98, 2222 (1994)

 

60. S. Singh and G. W. Robinson

 

A Study of the van der Zwan-Hynes Model for Dipole Isomerization Reaction Rate from the Point of View of Critical Phenomena

 

J. Chem. Phys. 100, 6640 (1994)

 

61. S. Singh and G. W. Robinson

 

Rate Processes in Dissipative Systems: Scaling in the Variational Transition State Theory

 

Chem. Phys. 183, 365 (1994)

 

62. S. Singh, R. Krishnan and G. W. Robinson

 

Critical Scaling Behavior in the Activated-Barrier-Crossing Problem

 

Phys. Rev. E49, 2540 (1994)

 

63. S. Singh and G. W. Robinson

 

Scaling in a Model of Chemical Reaction Rates with Space-Dependent Friction

 

J. Phys. Chem. 98, 7300 (1994)

 

64. M. Vedamuthu, S. Singh and G. W. Robinson

 

Accurate Mixture-Model Densities for D 2O

 

J. Phys. Chem. 98, 8591 (1994)

 

65. S. Singh and G. W. Robinson

 

A Study of the Quantum Activated Barrier Crossing Problem from the Viewpoint of Critical Phenomena

 

J. Phys. Chem. 99, 2764 (1995)

 

66. C. H. Cho, M. Chung, J. Lee, T. Nguyen, S. Singh, M. Vedamuthu, S. Yao, J.-B. Zhu and G. W. Robinson

 

Time- and Space-Resolved Studies of the Physics and Chemistry of Liquid Water near a Biologically Relevant Surface

 

J. Phys. Chem. 99, 7806 (1995)

 

67. S. Singh and G. W. Robinson

 

Study of the Reaction Rate, in the Critical Regime, of a Solute Embedded in a Lennard-Jones Crystal

 

J. Chinese Chem. Soc. 42, 367 (1995)

 

68. M. Vedamuthu, S. Singh and G. W. Robinson

 

Properties of Liquid Water. 4. The Isothermal Compressibility Minimum near 50 C

 

J. Phys. Chem. 99, 9263 (1995)

 

69. S. Singh and G. W. Robinson

 

An Analytical Study of the Berezhkovskii-Pollak-Zitserman theory of Rate Processes in the Memory-Suppression Region

 

Chem. Phys. 198, 257 (1995)

 

70. S. Singh and G. W. Robinson

 

Critical Scaling Behavior in the Activated Barrier Crossing Problem II. Power-law Potential

 

J. Chem. Phys. 103, 4920 (1995)

 

71. M. Vedamuthu, S. Singh and G. W. Robinson

 

A Simple Relationship Between the Properties of Isotopic Water

 

J. Phys. Chem. 100, 3825 (1996)

 

*72. C. H. Cho, S. Singh and G. W. Robinson

 

An Explanation of the Density Maximum in Water

 

Phys. Rev. Lett. 76, 1651 (1996)

 

73. M. Vedamuthu, S. Singh, Y. Onganer, D. R. Bessire, M. Yin, E. L. Quitevis and G. W. Robinson

 

Universality in Isomerization Reactions in Polar Solvents

 

J. Phys. Chem. 100, 11907 (1996)

 

74. S. Singh and G. W. Robinson

 

An Analytical Study of the Berezhkovskii-Pollak-Zitserman Theory of Rate Processes in the Critical Region. II. The critical coupling plane

 

Chem. Phys. 212, 125 (1996)

 

75. C. H. Cho, S. Singh and G. W. Robinson

 

Liquid Water and Biological Systems: The Most Important Problem in Science that Hardly Anyone Wants to See Solved

 

Faraday Discuss. 103, 19 (1996)

 

76. C. H. Cho, S. Singh and G. W. Robinson

 

Response to a Comment on Paper Number 72

 

Phys. Rev. Lett. 79, 180 (1997)

 

77. C. H. Cho, S. Singh and G. W. Robinson

 

Water Anamolies and the Double-well Takahashi Model

 

Chem. Phys. 232, 329 (1998)

 

78. J. Urquidi, C. H. Cho, S. Singh and G. W. Robinson

 

Temperature and Pressure Effects on the Structure of Water

 

J. Mol. Structure, 485-486, 363 (1999)

 

79. C. H. Cho, J. Urquidi, S. Singh and G. W. Robinson

 

Thermal Offset Viscosities of Liquid H 2O, D2O and T2O

 

J. Phys. Chem. B, 103, 1991 (1999)

 

*80. J. Urquidi, S. Singh, C. H. Cho and G. W. Robinson

 

Origin of Temperature and Pressure Effects on the Radial Distribution Function of Water

 

Phys. Rev. Lett. 83, 2348 (1999)

 

81. G. W. Robinson, J. Urquidi, S. Singh and C. H. Cho

 

Protein Denaturation Described by a Two-State Structure Model of Liquid Water

 

Cell and Mol. Biology, 47, 757 (2001)

 

82. C. H. Cho, J. Urquidi, S. Singh, S. C. Park and G. W. Robinson

 

Pressure Effect on the Density of Water

 

J. Phys. Chem. A, in print (2002)

 

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