1. Abhijit Mookerjee, A new formalism for the study
of configuration averaged properties of disordered systems J.
Phys. C6 L205 (1973)
2. Abhijit Mookerjee, Averaged density of states
in disordered systemsJ. Phys. C 6 1340
(1973)
3. Abhijit Mookerjee and A.R.Bishop, A new approach
to the CPA and its generalizationsJ. Phys.
C 7 2165 (1974)
4. Abhijit Mookerjee, The EconomouCohen localization
criterion: effect of clusters and a reappraisal J.
Phys. C 7 4069 (1974)
5. Abhijit Mookerjee and R.Haydock, Localization
and its absence in the CPA J. Phys. C 7
3001 (1974)
6. Abhijit Mookerjee, A new approach to the CPA and
its generalizations II: The disordered alloy in three dimensions J
Phys. C 8 29 (1975)
7. Abhijit Mookerjee, Fermion field theory and configurations
averaging I. J. Phys. C 7 1524 (1975)
8. Abhijit Mookerjee, Fermion field theory and configurations
averaging II: Two particle Green functions J.
Phys. C 8 2688(1975)
9. Abhijit Mookerjee, Fermion field theory and configuration
averaging :III Offdiagonal disorder J. Phys.
C 8 2943 (1975)
10. Abhijit Mookerjee, Localization in disordered
systems : the disordered spectrum Pramana
5
(1975)
11. Abhijit Mookerjee, Deepak Kumar and Vijay Kumar, Surface
segregation in random alloys J. Phys. F 6
725 (1976)
12. Abhijit Mookerjee, Criteria for localization
in disordered systems Phys. Lett. 54A
355(1975)
13. Abhijit Mookerjee, Cluster approximations
to response functions in disordered systems and macroscopic conservation
laws J. Phys C9 1225 (1976)
14. V. Choudhry and Abhijit Mookerjee, On the
size of the localization domainPhys. Lett.
59A 136 (1976)
15. Abhijit Mookerjee, A meanfield, effective
medium theory of random magnetic alloys : I the random Ising modelPramana
11 223 (1978)
16. Abhijit Mookerjee and S.C.Agarwal, Theory
of susceptibility in aGe and aSi Bull Mat
Sci 2 353 (1980)
17. Abhijit Mookerjee, Magnetoresistance of spin
glass alloys J. Phys.
F 10 1559 (1980)
18. Abhijit Mookerjee, A meanfield,effective
medium theory of random magnetic alloys : II the random Heisenberg modelPramana
14 11 (1980)
19. Vijay Kumar , V.K. Srivastava and Abhijit Mookerjee, Electronic
structure of disordered alloys I:selfconsistent CCPA incorporating off
diagonal disorder and short ranged order J.
Phys. C 15 1939 (1982)
20. V.K. Srivastava and A.Mookerjee , Electronic
structure of bcc alloysPramana 19 107
(1982)
21. V.K.Srivastava, V.Choudhry and A. Mookerjee, Electronic
structure of disordered alloys II: CCPA, application to IIIV ternary alloysJ.
Phys. C 16 4555 (1983)
22. D. Chowdhury and A. Mookerjee, Magnetoresistance
of AuFe and CuMn : theory and experiment J.
Phys. F 13 365 (1983)
23. S.B. Roy and A.Mookerjee, A meanfield,effective
medium theory of random magnetic alloys : III the Ising model with competing
interactions Pramana
21 171 (1983)
24. S.B. Roy and A.Mookerjee, Magnetic behaviour
of spin glass alloys beyond the percolation threshold J.
Phys. F 13 1945 (1983)
25. D. Chowdhury and A.Mookerjee , Spin glass transition as a problem
of percolation of overlapping spheres J. Phys. F
13
431 (1983)
26. D. Chowdhury and A.Mookerjee , Relationship between
Wohlfarth's model and the percolation model of spin glasses J.
Phys. F 13 L19 (1983)
27. D.Chowdhury and A.Mookerjee, 1/f noise
in semiconductors and spin glassesSolid State
Commun 48 887 (1983)
28. D.Chowdhury and A.Mookerjee, Spin dynamics
in vector spin glasses in an external magnetic field Phys.
Lett. 99A 111 (1983)
29. D.Chowdhury and A.Mookerjee, Logarithmic
relaxation of magnetization in the percolation model of the spin glass
transition J. Phys. F 14 245 (1984)
30. D.Chowdhury and A.Mookerjee, Local field distribution
revisited in the light of percolation model of spin glass transitionPramana
22 107 (1984)
31. M.Yussouff and A.Mookerjee, Phonon frequency
spectrum in random binary alloys J. Phys.
C17 1009 (1984)
32. D.Chowdhury and A.Mookerjee, Percolation
model, SherringtonKirkpatrick model and the localizationdelocalisation
model of the spin glass transition: a comparative study Phys.
Lett 100A (1984)
33. D.Chowdhury and A.Mookerjee, Dynamical mean field theory of realistic
spin glasses beyond the independent mode approximation J.
Phys. C 17 5049 (1984)
34. S.B.Roy and A.Mookerjee, Susceptibility and neutron
scattering in spin glass alloys beyond the percolation threshold J.
Phys. F 14 2719 (1984)
35. S.B.Roy and A.Mookerjee, A meanfield,effective
medium theory of random magnetic alloys IV The Heisenberg model with competing
interactions Pramana 24 563 (1985)
36. A.Mookerjee, Some speculations on the critical
exponents and fractal dimensionalities relevant to realistic spin glassesJ.
Phys. A 18 2635 (1985)
37. R.P.Singh and A.Mookerjee, Vibrational
properties of NiPt alloys J. Phys. C 18
4261(1985)
38. P.K.Thakur, A. Mookerjee and M.Youssouff, Electrical
conductivity in random alloys J. Phys. C 18
4677 (1985)
39. D. Chowdhury and A. Mookerjee, Random walk
and magnetism of spin clusters in Spinglasses, Amer.
J. Phys. 53(2) 261 (1985)
40. A.Mookerjee, Structure of scattering diagrams
for conductivity in random binary alloys J.
Phys. C 19 193 (1986)
41. Q.M.Khan, A.Mookerjee and A.Ghosh, Effect
of electrostatic fields on bonding in solids Materials
Res Mechanics 19 313 (1986)
42. M.Yussouff and A.Mookerjee, Neutron scattering
in random alloys Phys. Rev. B 33 5414
(1986)
43. A.Mookerjee and V.A.Singh, Nature of the
eigenstates on a Fibonacci Chain Phys. Rev.
B 34 7433 (1986)
44. A.Mookerjee, Cluster generalization of
the KKRcoherent potential approximation for metallic random alloys J.
Phys. F17 1511 (1987)
45. P.K. Thakur and A. Mookerjee, An
augmented space formalism for the T=0 conductivity for random CuNi alloys
in a cluster coherent potential approximation
J.
Phys. C 20 943 (1988)
46. D.Chowdhury, T.N.Harders, A.Mookerjee and P.Gibbs, The
phase diagram of CuMn : theory and experiment Solid
State Commun
57 603 (1986)
47. P.K.Thakur, A.Mookerjee and V.A.Singh, An
augmented space formulation for the density of states for Cu rich CuNi
alloys J Phys. F17 1523 (1987)
48. P.K.Thakur, A.Mookerjee and M.Yussouff, Calculation
of static conductivity using the augmented space formalism for substitutional
random alloys The Physics of Materials
248 (World Scientific) (1987)
49. R.P.Singh and A.Mookerjee ,Vibrational properties
of NiPd and NiCr alloysJ. Phys. F 18
2171 (1988)
50. P.K.Thakur and A.Mookerjee, Cluster coherentpotential
approximation in ternary random alloys. Phys.
Rev. B 38 3798 (1989)
51. S.Bardhan and A.Mookerjee, An embedding method
approach to the cluster coherent potential techniques in random alloysJ.
Phys. Condens Matter 1 509 (1989)
52. A.Mookerjee and Mesbahuddin Ahmed, A two potential
embedding approach to the binary alloy and the pair potential J.
Phys. Condens Matter 1 1991 (1989)
53. A.Mookerjee, Systems with static and dynamic
disorder : generalized coherent potential approximation J.
Phys. Condens Matter 2 897 (1990)
54. A. Mookerjee, Conductivity in dirty systems 
effect of dynamic electronphonon coupling J.
Phys. Condensed Matter 2 9399 (1990)
55. S.S.Rajput, S.A.Raazee, R.Prasad and A.Mookerjee, Application
of the KKR cluster CPA approximation to the sphase shift semicircular
modelJ. Phys. Condensed Matter 2 2653
(1990)
56. S.A.Raazee, S.S.Rajput, R.Prasad and A.Mookerjee, Electronic
Structure of disordered alloys : KorringaKohnRostocker Cluster coherent
potential approximation Phys. Rev. B
42 9391 (1990)
57. A .Mookerjee and A.Jayannavar, Wave function
envelope decay in disordered systems Pramana
34 441 (1990)
58. S.S.A.Raazee, A.Mookerjee and R.Prasad, On
the augmented space cluster coherent potential approximation and its analytic
properties J. Phys. Condens Matter
3 3301 (1991)
59. S.S.A. Razee, Abhijit Mookerjee and R. Prasad, On
the augmentedspace cluster coherentpotential approximation and its analytic
properties. J. Phys. Condens Matter
3 33013310 (1991)
60. Chaitali Basu, Abhijit Mookerjee, Asok K. Sen and Prabhat K. Thakur.,
Metalinsulator
transition in 0nedimensional quasiperiodic systems. J.
Phys. Condens Matter 3 60416053 (1991)
61. Chaitali Basu, Abhijit Mookerjee, Asok K. Sen and Prabhat K. Thakur,
Azbel Resonances. J.
Phys. Condens Matter 3 90559065 (1991)
62. Chaitali Basu and Abhijit Mookerjee. Two point
statistics on multifractal analysis of Azbel States. J.
Phys. Condens Matter 4 2857 (1992)
63. Abhijit Mookerjee, NanXian Chen, Vijay Kumar and Md Abdus Satter.
Ab
Initio pair potentials for fcc metals : an application of the method of
M\"obius transform. J. Phys. Condens Matter
4 2439 (1992)
64. S.K. Manna and Abhijit Mookerjee. Numerical Study
of the distribution of phase as an electron moves in a onedimensional
continuously and randomly varying potential. Int
J. Mod. Phys. B 6 1517 (1992)
65. P.K. Thakur, Chaitali Basu and Abhijit Mookerjee. A
Multifractal analysis for electronic transmittance in inhomogeneous potentials.J.
Phys. Condens Matter 4 6095 (1992)
66. Abhijit Mookerjee, Bikas K Chakrabarti, Indra Dasgupta and Tanusri
Saha. Quantum Percolation and breakdown : absence
of the delocalisation transition in two dimensions Physica
A 186 258 (1992)
67. S.K.Manna and Abhijit Mookerjee. Numerical studies
of resistance and conductance fluctuations in a chain with a continuous
disordered potential
Mod. Phys. Lett.
B 6 391 (1992)
68. Abhijit Datta and Abhijit Mookerjee. Recursion
in Augmented Space.Int J. Mod. Phys. B
6 3295 (1992)
69. Indra Dasgupta, Tanusri Saha, Abhijit Mookerjee and B.K. Chakrabarti.
Is
there a delocalisation transition in a twodimensional model for Quantum
Percolation ? Mod. Phys. Lett. B 6
817 (1992)
70. Indra Dasgupta, Tanusri Saha and Abhijit Mookerjee. Scaling
of resistance in twodimensional Anderson tightbinding model for disordered
systems.J. Phys. Condens Matter 4 7865
(1992)
71. Indra Dasgupta, Tanusri Saha and A. Mookerjee. Analysis
of stochastic resonances in a twodimensional quantum percolation modelPhys.
Rev. B 47 3097 (1993)
72. Chaitali Basu and Abhijit Mookerjee. Equivalence
of geometric scaling of transport coefficients and wave functionsInt
J. Mod Phys. B 7 1309 (1993)
73. Chaitali Basu and Abhijit Mookerjee. Multichannel
scattering in 1d disordered disordered chains Waves
in Random Media 3 1 (1993)
74. S.K. Manna, Chaitali Basu and Abhijit Mookerjee Internal
geometry of delocalised and localized states in a onedimensional continuous
quasiperiodic potential Physica A
189 390 (1992)
75. Abhijit Mookerjee. Transmittance through random
media Ind J. Phys. 66A 559 (1992)
76. Abhijit Datta, Prabhat K Thakur and Abhijit Mookerjee. Cluster
Coherent Potential Approximation within the TBLMTO Phys.
Rev. B 48 8567 48 (1993)
77. Abhijit Mookerjee and Rajendra Prasad. An Augmented
Space approach to correlated disorder Phys.
Rev. B 48 17724 (1993)
78. I. Dasgupta and A. Mookerjee. Study of electrons
in contact with nonMarkovian baths J. Phys.
Condens Matter 6 15451552 (1994)
79. T. Saha and A. Mookerjee. A study of annealed
and quenched averaging of the thermodynamic potential in a disordered system
: an augmented space approach J. Phys. Condens
Matter 6 15291544 (1994)
80. I.Dasgupta, T. Saha and A.Mookerjee. Stochastic
resonances at the mobility edges in three dimensional Anderson model Phys.
Rev. B 50 4867 (1994)
81. T.Saha, I. Dasgupta and A. Mookerjee. Augmented
Space recursion approach to electronic structure of random binary alloysJ.
Phys. CondensMatter : Letters 6 L245 (1994)
82. Anirban Sain and Abhijit Mookerjee. Scaling of
resistance in the twodimensional Anderson tightbinding model for disordered
systems : effect of a random environment Mod
Phys. Lett B 8 195 (1994).
83. Abhijit Datta, A.K. Bhattacharjee and Abhijit Mookerjee. Energetics
of finite clusters within a TBLMTO method Mod
Phys. Lett. B 8 883888 (1994).
84. T.Saha, I.Dasgupta and A. Mookerjee . An Augmented
Space recursive technique for the study of short ranged ordering effects
in binary alloys
Phys. Rev. B 50 13267
(1994)
85. I. Dasgupta, T. Saha and A. Mookerjee. An Augmented
Space recursive method for the study of alloy phase stability random binary
alloys Phys. Rev. B 51 34133423 (1995)
86. A. Mookerjee. Phase Stability in random binary
alloys Bull. Mat. Sci. (1995)
87. B. Sanyal, P.P. Biswas, M. Fakhruddin, A. Halder, M. Ahmed and A. Mookerjee,
An
Augmented space recursion in the kspace representation
, J.
Phys. Condens Matter 7 85698575 (1995)
88. A. Mookerjee, Indra Dasgupta and Tanusri Saha, Quantum
percolationInt. J. Mod. Phys. B 9 29893024
89. A. Mookerjee, Complex Systems : and Introduction
,
Ind. J. Phys B 69B 495505 (1995)
90. A. Mookerjee, The Spin Glass , Ind.
J. Phys B 69B 575599 (1995)
91. I Dasgupta, T. Saha and A. Mookerjee. Electronic
structure of random alloys J. Phys. Condens
Matter 8 1979 (1996)
92. T. Saha and A. Mookerjee. The Effects of local
lattice distortion in nonisochoric alloys : CuPd and CuBe J. Phys.
Condensed Matter 8 2915 (1996)
93. I. Dasgupta and A. Mookerjee. An augmented
space recursive method for the study of concentration profiles at CuNi
alloy surfaces J.Phys. Condens Matter
8 4125 (1996)
94. T. SahaDasgupta and A. Mookerjee, The
phase stability of PdRh alloysJ. Phys. Condens
Matter 9 2179 (1997)
95. T. SahaDasgupta and A. Mookerjee, An Augmented
Space Recursive Method for the Study of Ternary Alloys J.
Phys. Condens Matter 9 6607 (1997)
96. Parthapratim Biswas, B.Sanyal, A.Mookerjee, A.Huda, A.Haldar and M.Ahmed
, Augmented space recursion for spectral function
for disordered binary alloys: Some comments
Int. J. Mod. Phys. B11 3715 (1997)
97.Parthapratim Biswas, B.Sanyal, A.Mookerjee, A.Huda, N.Chowdhury, M.Ahmed
and A. Haldar, A study of the spectral functions
and complex band structure for the disordered binary alloys: AgPd and AuFe
Int. J. Mod. Phys. B11 3703 (1997)
98. S.Ghosh, N. Das and A. Mookerjee, Convergence
of augmented space recursionJ. Phys. Condens
Matter 9 10701 (1997)
99. S.Ghosh, N. Das and A. Mookerjee, A geometrical
approach to Feenberg multiple scattering series J.Phys.A
Math Phys 31 2837 (1997)
100. B. Sanyal, P. Biswas, A. Mookerjee, H. Salunke, G.P. Das and A.K.
Bhattacharya.
An augmented space study of rough epitaxial
overlayers. J. Phys. Condens Matter
10 57675779 (1998)
101. G. Kalpana, G.Pari, A.Mookerjee and A.K.Bhattacharyya. Aninitio
calculations on BeS, BeSe and BeTe Int. J.
Mod. Phys. B12 19751980 (1998)
102. B. Sanyal and A. Mookerjee. Magnetism and magnetic
asphericity in FeNi alloys Phys Lett A
246 151156 (1998)
103. S.Ghosh,N.Das & A. Mookerjee. Magnetism
in NiMo single crystal alloys:Theory and Experiment. J.
Phys. Condens Matter 10 1177311780 (1998)
104. P. Biswas, B. Sanyal, T. SahaDasgupta, A. Mookerjee, M. Ahmed, A.
Huda, N. Chaudhury and A. Halder, Electronic
and Magnetic Structure of AuFe alloys J. Phys.
Condens Matter 11 18331846(1998)
105. B. Sanyal, A. Mehta and A. Mookerjee, A new
class of coupled continuum equations for atomic growth on surfaces,
J.
Phys. Condens Matter
11 43674380 (1998)
106. G. Pari, V. Kumar, A. Mookerjee and A.K. Bhattacharya, Electronic
structure of bulk and layers of alkaline earths (BeBa) J.
Phys. Condes Matter 11 4291 (1999)
107. A. Mookerjee, B. Sanyal and A. Mehta, Growth
and electronic structure of rough overlayers, Physica
A 270 143 (1999)
108. S. Ghosh, N. Das and A. Mookerjee, TBLMTORecursion
for random binary alloys : a tractable representation. Int
J. Mod. Phys. B13 723 (1999)
109. A. Ray, P. Das, S.K. Saha, B. Sethi, C. Basu Chaudhuri, A Mookerjee
and G. Pari, Changes in the decay rate of 7Be in
Au and Al2O3 and its impact on the solar neutrino problem. Phys
Lett B 455 69 (1999)
110. C. Basu Chaudhuri, G. Pari, A. Mookerjee and A.K. Bhattacharyya, High
pressure studies of MgTe using firstprinciples electronic structure calculations.Phys.
Rev. B60 11846 (1999)
111. S. Ghosh and A. Mookerjee, Magnetic properties
of disordered CuCo alloys. J. Mag. Mag. Materials
214 291 (2000)
112. S. Saha, T.P. Sinha and A. Mookerjee, Structural
and optical properties of SrTiO3. J. Phys.
Condens Matter 12 3325 (2000)
113. S. Saha, T.P. Sinha and A. Mookerjee, Electronic
structure, chemical bonding and optical properties of paraelectric BaTiO3,
Phys
Rev B62 8828 (2000)
114. B. Ganguli and A. Mookerjee, Optical properties
of random semiconducting alloys. Int. J. Mod. Phys. B14 1537 (2000)
115. S. Saha, T.P. Sinha and A. Mookerjee, First
principles study of electronic structure and optical properties of CaTiO3.
Eur.
Phys. J. B18 207214 (2000)
116. A. Arya, S. Banerjee, G.P. Das, I. Dasgupta, T. SahaDasgupta and
A. Mookerjee, A firstprinciples thermodynamic approach
to ordering in NiMo alloys. Acta Mater. 49
35753587 (2001)
117 A. Chakrabarti and A. Mookerjee, Augmented space
recursion for partially disordered systems. J.
Phys Condens Matter 13 1014910157 (2001)
118. S. Ghosh, B. Sanyal, C. Basu Chaudhuri and A. Mookerjee, Magnetic
properties of FeCo, FeCr and FeMn. Eur. Phys.
J. B23 455 (2001)
119. A. Chakrabarti and A. Mookerjee, Convergence
of the recursion method for metals and alloys J.
Phys. Condens Matter 14 3211 (2002)
120. A. Mookerjee, Growth of rough epitaxial surfacesPramana
58
399 (2002)
121. K. K. Saha, T. SahaDasgupta, A. Mookerjee, S. Saha and T.P. Sinha,
Optical
properties of alkaline earth perovskites : a formulation J
Phys Condens Matter 14 3849 (2002)
122. A. Ray, P. Das, S.K. Saha, S.K. Das and A. Mookerjee, Effect
of host medium on the $ L / K_ ratio in 7Be electron capture,
Phys Rev C 66 012501 (2002)
123. Biplab Ganguli and A. Mookerjee, Optical properties
of IIIV semiconducting alloys Int. J. Mod. Phys. B16 3681 (2002)
124. D. Paudyal, T. SahaDasgupta and A. Mookerjee, Phase stability of NiPt alloys,
J. Phys. Condens. Matt. 15 1029 (2003)
125. Ainul Huda, Omjyoti Datta and A. Mookerjee, Study of
coupled continuum equations describing surface deposition Int. J. Mod. Phys. B (accepted) (2003)
126. A. Mookerjee, T. SahaDasgupta, I. Dasgupta, A. Arya, S. Banerjee and
G.P. Das A firstprinciples thermodynamic approach to ordering in binary alloys Bull. Mat. Sci.
26 79 (2003)
127. Ashish Bhattacharjee, M. Ahmed, A. Mookerjee and A. Halder Effect of alloying on the electronic and magnetic properties of Fe,
Co and Ni with Au and Ag Bull. Mat. Sci.
26 90 (2003)
128. A. Banerjea, R.P. Datta, A. Mookerjee and A.K. Bhattacharya, Simulated
annealing studies of small Cu Clusters Int. J. Mod. Phys. B 17 273 (2003)
129 Mukul Kabir, A. Mookerjee, R.P. Datta, A. Banerjea and A.K. Bhattacharya Study of small nanoparticles : an abinitio FPLMTO based molecular dynamics of small Cu clusters
Int. J. Mod. Phys. B17 2061 (2003)
130. A. Huda, M. Ahmed, A. Halder and A. Mookerjee, Effect of alloying on the electronic and magnetic properties of AuFe, AgFe and CuFe
Int. J. Mod. Phys B 17 281 (2003)
131. A. Huda, O. Dutta and A. Mookerjee, Study of a pair of coupled,
continuum equations modelling surface growth Int. J. Mod. Phys.
B 17 2981 (2003)
132. A. Huda and A. Mookerjee, Magnetism on a rough surface
J. Magn. Magn. Mater. 267 97 (2003)
133. D. Paudyal and A. Mookerjee Electronic structure and ground state properties of nonmagnetic NiPt systems Int. J. Mod. Phys.
B17 4447 (2003)
134. M. Chakraborty, A. Mookerjee and A.K. Bhattacharya, Electronic structure and magnetism in Ni thin films Int. J. Mod. Phys.
B17 5839 (2003)
135. A. Alam and A. Mookerjee, Vibrational properties of phonons in random alloys : an augmented space recursion technique Phys Rev
B 69 024205 (2004)
136. K.K. Saha, T. SahaDasgupta, A. Mookerjee and I. Dasgupta,
Symmetry reduction in augmented space recursion formalism in random binary alloys J. Phys. Condensed Matter 16 1409 (2004)
137. Biplab Ganguli, K.K. Saha, T. SahaDagupta, A. Mookerjee and A.K. Bhattacharya,
Electronic and optical studies in ZnIn2Te4
Physica B : Condensed Matter 348 352 (2004)
138. D. Paudyal, T. SahaDasgupta and A. Mookerjee, Magnetic properties of XPt (X=Fe,Co,Ni) alloy systems J. Phys. Condens Matter
16 2317 (2004)
139. A. Huda, O. Dutta and A. Mookerjee,
Study of a pair of coupled continuum equations modelling surface growth : interplay between surface diffusion, desorptionaccretion and Schwoebel barrier Int. J. Mod. Phys. B 18 1549 (2004)
140. A. Huda, D. Paudyal, A. Mookerjee and M. Ahmed, Spinorbit
coupling : a recursion method approach Physica B : Condensed
Matter 351 63 (2004)
141. D. Paudyal and A. Mookerjee, Phase stability and magnetism in NiPt and NiPd alloys J. Phys Condens Matter 16 3791 (2004)
142. M. Chakraborty, A. Mookerjee and A.K. Bhattacharya, Magnetism
on surfaces : an orbital resolved study J. Magn. Magn. Mater.
285 210 (2004)
143. K.K. Saha and A. Mookerjee, Optical conductivity for disordered
alloys : an augmented space formulation Phys Rev B 70 134205 (2004)
144. Mukul Kabir, A. Mookerjee and A.K. Bhattacharya, Structure and stability of Copper clusters : a tightbinding molecular dynamics study
Phys Rev A 69 043203 (2004)
145. Mukul Kabir, A. Mookerjee and A.K. Bhattacharya, Cu clusters : electronic effect dominates over geometric effect
Eur J. Phys D 31 477 (2004)
146. G. Pari. A. Mookerjee and A.K. Bhattacharya, The role of Y in YAlO3 and YAG by first principles electronic structure calculations Physica B: Condensed Matter 353 192 (2004)
147. D. Paudyal, T. SahaDasgupta and A. Mookerjee, Phase stability of FePt and CoPt alloy systems.
J Phys : Condens Matter 16 7247 (2004)
148. U. Kumar, K.G. Padmalekha, P.K. Mukhopadhyay, D. Paudyal and A. Mookerjee, magnetic transitions in NiPt systems : a theoretical and experimental study
J Magn Magn Mater 292 234 (2005)
149. A. Alam and A. Mookerjee, Inelastic neutron scattering
in disordered alloys : an augmented space approach
Phys. Rev. B 71 094210 (2005)
150. Kamal K Saha and A. Mookerjee, Electronic Structure and response
functions in random alloys : vector recursion and Green matrices
J Phys Condens Matter 17 287 (2005)
151. G. Pari, A. Mookerjee and A.K. Bhattacharya,
Investigation of the role of 3dtransition metal atoms (M=TiNi) in a
Y3Al5O12 matrix by first principles electronic structure calculations. Physica B : Condens Matter 353 192 (2004)
152. Kamal K Saha, A. Mookerjee and O. Jepsen, Electronic
Structure of random alloys : a reciprocal space approach
Phys. Rev B 71 094210 (2005)
153. Atisdipankar Chakrabarti and A. Mookerjee A selfconsistent TBLMTOASR method for the study of electronic structure of disordered binary alloys.
E. Physical J B 44 21 (2005)
154. G. Pari, A. Mookerjee and A.K. Bhattacharya,
Investigation of the role of rareearth atoms in a
Y3Al5O12 matrix by first principles electronic structure calculations. Physica B : Condens Matter (accepted) (2005)
155. D. Paudyal and A. Mookerjee Phase stability in 3d4d (CuAu) and
segregation in 3d5d (CuAg) alloys Physica B : Condens Matter
(accpeted) (2005)
156. T. Das, S. Deb and A. Mookerjee Study of the electronic and elastic properties of transition metal and actinide carbides
Physica B : Condens Matter (accepted) (2005)
Submitted for Publication
