* Parongama Sen, Subinay Dasgupta, Arnab Chatterjee, P.A. Sreeram, G. Mukherjee and S.S. Manna Small-world properties of the Indian Railway network Phys. Rev. E v.67 p.036106 (2003) cond-mat/0208535 1. M. E. J. Newman, SIAM Review 45 (2003) 167-256 cond-mat/0303516 The structure and function of complex networks 2. Parongama Sen, S. S. Manna, Phys. Rev. E 68 (2003) 026104 cond-mat/0301617 Clustering properties of a generalized critical Euclidean network 3. Parongama Sen Phys. Scr. T 106 (2003) 55 Phase Transitions in Euclidean Networks: A Mini-Review 4. Who is the best connected scientist? A study of scientific coauthorship networks", M. E. J. Newman, Complex Networks, Eds. E. Ben-Naim, H. Frauenfelder, and Z. Toroczkai, LNP v. 650 pp. 337-370 (2004) Springer, Berlin. 5. Parongama Sen Phys. Rev. E 69 (2004) 046107 cond-mat/0310513 Accelerated growth in outgoing links in evolving networks: deterministic vs. stochastic picture 6. Katherine A. Seaton, Lisa M. Hackett Physica A 339 (2004) 635-644 cond-mat/0311254 Stations, trains and small-world networks 7. R. N. Onody, P. A. de Castro Physica A 336 (2004) 491-502 cond-mat/0402315 Nonlinear Barabasi-Albert Network 8. Han Zhu, Zhuang-Xiong Huang Phys. Rev. E 70 (2004) 036117 cond-mat/0404377 Navigation in a small world with local information 9. Sandeep Krishna nlin/0403050 Formation and Destruction of Autocatalytic Sets in an Evolving Network Model (Sandeep's Ph D Thesis) 10. Luciano da Fontoura Costa, Phys. Rev. E 69 (2004) 066127 Reinforcing the resilience of complex networks 11. Michael T. Gastner, M. E. J. Newman The spatial structure of networks EUROPEAN PHYSICAL JOURNAL B 49 (2): 247-252 JAN 2006 cond-mat/0407680 12. Soumen Roy, Somendra M. Bhattacharjee Is small-world network disordered? PHYSICS LETTERS A 352 (1-2): 13-16 MAR 20 2006 cond-mat/0409012 13. Shalev Itzkovitz, Uri Alon Phys. Rev. E 71 (2005) 026117 cond-mat/0409163 Subgraphs and network motifs in geometric networks 14. Roberto N. Onody, Paulo A. de Castro Phys. Rev. E 70 (2004) 037103 cond-mat/0409609 Complex network study of Brazilian soccer players 15. Ganesh Bagler cond-mat/0409773 Analysis of the Airport Network of India as a complex weighted network 16. Douglas J. Ashton, Timothy C. Jarrett, Neil F. Johnson Phys. Rev. Letts. 94 (2005) 058701 cond-mat/0409059 Effect of congestion costs on shortest paths through complex networks 17. Sebastian Risau-Gusman, Phys. Rev. E 70 (2004) 056127 cond-mat/0409722 Properties of dense partially random graphs 18. Tao Zhou, Gang Yan, Bing-Hong Wang, Phys. Rev. E 71 (2005) 046141 cond-mat/0412448 Maximal planar networks with large clustering coefficient and power-law degree distribution 19. Tao Zhou, Ying-di Jin, Bing-Hong Wang, Da-Ren He, Pei-Pei Zhang, Yue He, Bei-Bei Su, Kan Chen, Zhong-Zhi Zhang cond-mat/0502253 A general model for collaboration networks 20. Julian Sienkiewicz, Janusz A Holyst Acta Physica Polonica B 36 (2005) 1771 physics/0503099 Public transport systems in Poland: from Bialystok to Zielona Gora by bus and tram using universal statistics of complex networks 21. Luciano da Fontoura Costa physics/0505008 Socioeconomic development and stability: A complex network blueprint 22. Andrea de Montis, Marc Barthelemy, Alessandro Chessa, Alessandro Vespignani physics/0507106 The structure of Inter-Urban traffic: A weighted network analysis 23. Pei-Pei Zhang, Kan Chen, Yue He, Tao Zhou, Bei-Bei Su, Yingdi Jin, Hui Chang, Yue-Ping Zhou, Li-Cheng Sun, Bing-Hong Wang, and Da-Ren He Physica A 360 (2006) 599-616 Model and empirical study on some collaboration networks 24. Anjan Kumar Chandra and Subinay Dasgupta Physica A 357 (2005) 436-446 A small world network of prime numbers 25. Julian Sienkiewicz, Janusz A Holyst physics/0506074 Phys. Rev. E 72 (2005) 046127 Statistical analysis of 22 public transport networks in Poland 26. Kazuhiro Takemoto and Chikoo Oosawa Phys. Rev. E 72 (2005) 046116 Evolving networks by merging cliques 27. Maciej Kurant and Patrick Thiran physics/0510151 Extracting the Traffic Flows and the Physical Graphs from Timetables 27a. Maciej Kurant and Patrick Thiran Phys. Rev. E 74 (2006) 036114 Extraction and analysis of traffic and topologies of transportation networks 28. Maciej Kurant and Patrick Thiran Phys. Rev. Lett. 96, 138701 (2006) physics/0510194 Layered Complex Networks 29. D J Watts THE "NEW" SCIENCE OF NETWORKS Annual Review of Sociology 30 (2004) 243-270 30. Tao Zhou, Zhongqian Fu, and Binghong Wang Epidemic dynamics on complex networks PROGRESS IN NATURAL SCIENCE, 2006 Vol.16 No.5 P.452-457 physics/0508096 31. Ake J. Holmgren Electricity Case: Risk Analysis of Infrastructure Systems A Different Approaches for Risk Analysis of Electric Power Systems http://www.usc.edu/dept/create/reports/NYUYr1ElecCase4Holmgren.pdf 32. Darren Paul Croft The Social Organisation of the Guppy (Poecilia reticulata) http://www.darrencroft.co.uk/Croft_PhD_Thesis.PDF 33. Andrea De Montis, Marc Barthelemy, Michele Campagna, Alessandro Chessa, Alessandro Vespignani Emergent topological and dynamical properties of a real inter-municipal commuting network: perspectives for policy-making and planning Congress of the European Regional Science Association http://www.feweb.vu.nl/ersa2005/final_papers/607.pdf 34. Andrea De Montis, Marc Barthelemy, Alessandro Chessa, Alessandro Vespignani The structure of Inter-Urban traffic: A weighted network analysis physics/0507106 35. C. C. Leary, M. Schwehm, M. Eichner, H. P. Duerr Tuning degree distributions of scale-free networks physics/0602152 36. M. T. Gastner and M. E. J. Newman The spatial structure of networks European Physical Journal B 49 (2006) 247-252 37. Parongama Sen Complexities of social networks: A Physicist's perspective Econophysics and Sociophysics: Trends and perspectives, ed. B. K. Chakrabarti, A. Chakrabarti and A. Chatterjee, Wiley-VCH 2006 physics/0605072 38. Li Ping and Wang Binghong An approach to Hang Seng Index in Hong Kong stock market based on network topological statistics Chinese Science Bulletin, Vol 51, No 5, March 2006, pp.624-629 39. YB Xie, T Zhou, WJ Bai, WK Xiao, BH Wang Geographical networks evolving with optimal policy PHYSICAL REVIEW E 75 (2007) 036106 physics/0605054 40. Ke Jian-Hong, Lin Zhen-Quan and Chen Xiao-Shuang Pregelation Behaviour of Coagulation Processes with the Constant-Reaction-Number Kernel Chinese Phys. Lett. 23 720-723 (2006) 41. WANG Lin, LI Hai-lin Transient Simulation Research on Virus Spreading Models COMPLEX SYSTEMS AND COMPLEXITY SCIENCE, 2005 Vol.2 No.2 P.39-44 42. V. Gol'dshtein, G. A. Koganov An indicator for community structure physics/0607159 43. Julian Sienkiewicz, Piotr Fronczak, Janusz A. Holyst Log-periodic oscillations due to discrete effects in complex networks cond-mat/0608273 44. Hui-Jun Sun, Jian-Jun Wu Complex Behaviour for the Origin and Destination Matrix Estimation Problem Chinese Physics Letters, 23, pp. 2323-2326 (2006). 45. Christian von Ferber, Taras Holovatch, Yurij Holovatch, Vasyl Palchykov Network Harness: Metropolis Public Transport physics/0608125 Physica A 380 (2007) 585-591 46. Xinping Xu, Junhui Hu, Feng Liu and Lianshou Liu Scaling and correlations in three bus-transport networks of China Physica A 374 (2007) 441-448 47. Cai TY, Li ZY Ising model on a small world network INTERNATIONAL JOURNAL OF MODERN PHYSICS B 18 (17-19): 2575-2578 JUL 30 2004 48. Yun-feng CHANG, Liang SUN, Xu CAI Competition effect on the formation of small world networks JOURNAL OF CENTRAL CHINA NORMAL UNIVERSITY(NATURAL SCIENCES) 2006 Vol.40 No.1 P.33-35,46 49. Shi-yin JI, Ming-sen DENG Avalanche dynamics on complex network JOURNAL OF GUIZHOU EDUCATION INSTITUTE(NATURAL SCIENCE) 2006 Vol.17 No.2 P.31-35. 50. Zi-you GAO, Xiao-mei ZHAO, Hai-jun HUANG, Bao-hua MAO Research on Problems Related to Complex Networks and Urban Traffic Systems JOURNAL OF TRANSPORTATION SYSTEMS ENGINEERING AND INFORMATION TECHNOLOGY 2006 Vol.6 No.3 P.41-47 51. Kazumoto Iguchi, Shuichi Kinoshita, S. Hiroaki Yamada Boolean Dynamics of Kauffman Models with a Scale-Free Network cond-mat/0510430 52. Luca Dall'Asta Dynamical Phenomena on Complex Networks physics/0609124 53. Jian-Jun Wu, Zi-You Gao and Hui-Jun Sun Strength dynamics of weighted evolving networks Chinese Phys. 16 (2007) 47-50 54. R. Xulvi-Brunet, I. M. Sokolov Growing networks under geographical constraints Phys. Rev. E 75, 046117 (2007) physics/0701004 55. KP Li, ZY Gao, BH Mao A weighted network model for railway traffic INTERNATIONAL JOURNAL OF MODERN PHYSICS C 17 (9): 1339-1347 SEP 2006 56. W Zhao, HS He, ZC Lin, et al. The study of properties of Chinese railway passenger transport network ACTA PHYSICA SINICA 55 (8): 3906-3911 AUG 2006 57. Liang Huang, Kongqing Yang, and Lei Yang Enhancing robustness and immunization in geographical networks Phys. Rev. E 75, 036101 (2007) 58. Yong-Zhou Chen, Nan Lia and Da-Ren Heb A study on some urban bus transport networks Physica A 376 (2007) 747-754. 59. Fernando Peruani, Monojit Choudhury, Animesh Mukherjee, Niloy Ganguly Emergence of a non-scaling degree distribution in bipartite networks: a numerical and analytical study arXiv:cond-mat/0703634v1 60. MJ Jeger, M Pautasso, O Holdenrieder, MW Shaw Modelling disease spread and control in networks: implications for plant sciences New Phytologist, 174 (2007) pp. 279-297 61. W. Li and X. Cai Physica A (2007) Empirical analysis of a scale-free railway network in China 62. Z Xu, DZ Sui Journal of Geographical Systems, 9 (2007) 189-205 Small-world characteristics on transportation networks: a perspective from network autocorrelation 63. Xinping Xu, Junhui Hu, Feng Liu Chaos 17 (2007) 023129 Empirical analysis of the ship-transport network of China 64. S Kinoshita, K Iguchi, HS Yamada arXiv: 0708.2585 Robustness of Attractor States in Complex Networks with Scale-free Topology 65. J. Krause1, D. P. Croft, R. James Behavioral Ecology and Sociobiology DOI: 10.1007/s00265-007-0445-8 Social network theory in the behavioural sciences: potential applications 66. Woo-Sung Jung, Fengzhong Wang, H. Eugene Stanley Gravity model in the Korean highway arXiv:0710.1274 ___________________________________________________________________________ * Arnab Chatterjee and Bikas K. Chakrabarti Fluctuation Cumulant Behavior for the Field-Pulse Induced Magnetisation-Reversal Transition in Ising Models, Phys. Rev. E 67 (2003) 046113 cond-mat/0210135 1. M. Paessens, M. Henkel, J. Phys. A 36 (2003) 8983-9008 (#3) The kinetic spherical model in a magnetic field 2. Kyungwha Park, Per Arne Rikvold, Gloria M. Buendia, M. A. Novotny Phys. Rev. Lett. 92 (2004) 015701. cond-mat/0307595 Low-temperature nucleation in a kinetic Ising model with soft stochastic dynamics. 3. Arnab Chatterjee and Bikas K. Chakrabarti Phase Transitions 77 (2004) 581-600, Special Issue, Ed. S. Puri cond-mat/0312454. Competing field pulse induced dynamic transition in Ising models 4. Naoya Fujiwara, Hiroki Tutu and Hirokazu Fujisaka Phys. Rev. E 70 (2004) 066132 Magnetic walls in the anisotropic XY-spin system in an oscillating magnetic field 5. Hiroki Tutu and Naoya Fujiwara J. Phys. Soc. Japan 73 (2004) 2680 Landau Theory of Dynamic Phase Transitions and Systematic Perturbation Expansion Method for Getting Phase Diagrams 6. Mustafa Keskin, Osman Canko and Umit Temizer Phys. Rev. E 72 (2005) 036125 Dynamic phase transition in the kinetic spin-1 Blume-Capel model under a time-dependent oscillating external field 7. Osman Canko, Bayram Deviren and Mustafa Keskin J. Phys.: Condens. Matter 18 (2006) 6635-6653 Dynamic phase transition in the kinetic spin-3/2 Blume–Emery–Griffiths model in an oscillating field 8. Mustafa Keskin, Osman Canko, and Bayram Deviren Phys. Rev. E 74 (2006) 011110 Dynamic phase transition in the kinetic spin-3/2 Blume-Capel model under a time-dependent oscillating external field 9. Osman Canko, Umit Temizer, Mustafa Keskin DYNAMIC PHASE TRANSITION IN THE KINETIC BLUME-EMERY-GRIFFITHS MODEL IN AN OSCILLATING EXTERNAL FIELD Int. J. of Mod. Phys. C, Vol. 17, No. 12 (2006) 1717-1737 10. Yuanzhi Shao, Weirong Zhong, Zhenhui He Chinese Science Bulletin 2005 Vol. 50 No. 21 2422-2426 cond-mat/0601187 Nonequilibrium dynamic transition in a kinetic Ising model driven by both deterministic modulation and correlated stochastic noises 11. D. T. Robb, P. A. Rikvold, A. Berger, M. A. Novotny Physical Review E 76 021124 (2007) arXiv:0704.1123 Conjugate field and fluctuation-dissipation relation for the dynamic phase transition in the two-dimensional kinetic Ising model 12. Gimenez MC, Albano EV Dynamic response of silver monolayers adsorbed on gold(100) upon an oscillatory variation of the chemical potential: a Monte Carlo simulation study JOURNAL OF PHYSICAL CHEMISTRY C 111 (4): 1809-1815 FEB 1 2007 ___________________________________________________________________________ * Arnab Chatterjee, Bikas K Chakrabarti, S S Manna Pareto Law in a Kinetic Model of Market with Random Saving Propensity Physica A 335 (2004) 155-163 cond-mat/0301289 1. Bikas K. Chakrabarti and Arnab Chatterjee, Ideal Gas-Like Distributions in Economics: Effects of Saving Propensity, in `Applications of Econophysics', pages 280-285 (2004), Springer-Verlag, Tokyo. Conference proceedings of Second Nikkei Symposium on Econophysics, Tokyo, Japan, 2002. cond-mat/0302147. 2. Sitabhra Sinha Phys. Scr. T 106 (2003) 59 cond-mat/0304324 Stochastic Maps, Wealth Distribution in Random Asset Exchange Models and the Marginal Utility of Relative Wealth 3. Arnab Das and Sudhakar Yarlagadda Phys. Scr. T 106 (2003) 39 cond-mat/0304685 Analytic treatment of a trading market model 4. Arnab Das and Sudhakar Yarlagadda cond-mat/0310343 A distribution function analysis of wealth distribution 5. Arnab Chatterjee, Bikas K. Chakrabarti, S. S. Manna Phys. Scr. T 106 (2003) 36 cond-mat/0311227 Money in Gas-Like Markets: Gibbs and Pareto Laws Conference Procedings of International Conference on "Unconventional Applications of Statistical Physics", Kolkata, India, March 2003; 6. Frantisek Slanina Phys. Rev. E 69 (2004) 046102 cond-mat/0311235 Inelastically scattering particles and wealth distribution in an open economy 7. Marco Patriarca, Anirban Chakraborti, Kimmo Kaski Physica A 340 (2004) 334-339 cond-mat/0312167 Gibbs versus non-Gibbs distributions in money dynamics 8. Marco Patriarca, Anirban Chakraborti, Kimmo Kaski Phys. Rev. E 70 (2004) 016104 cond-mat/0402200 A statistical model with a standard Gamma distribution 9. Nicola Scafetta, Sergio Picozzi, Bruce J. West Quant Finance 4 (2004) 353-364 cond-mat/0403045 An out-of-equilibrium model of the distributions of wealth 10. Przemyslaw Repetowicz, Stefan Hutzler, Peter Richmond Physica A 356 (2005) 641-654 cond-mat/0407770 Dynamics of Money and Income Distributions 11. Arnab Das, Sudhakar Yarlagadda Physica A 353 (2005) 529-538 cond-mat/0409329 An analytic treatment of the Gibbs-Pareto behavior in wealth distribution 12. N. Ding, N. Xi and Y. Wang Eur. Phys. Jour. B 36 (2003) 149-153 Effects of saving and spending patterns on holding time distributions 13. Philip K. Rawlings, David Reguera and Howard Reiss Physica A 343 (2004) 643-652 Entropic basis of the Pareto law 14. Sitabhra Sinha and S. Raghavendra Eur. Phys. J. B 42 (2004) 293 15. Sitabhra Sinha cond-mat/0502166 Physica A 359 (2006) 555-562 Evidence for Power-law tail of the Wealth Distribution in India 16. Yougui Wang and Hanqing Qiu Physica A 353 (2005) 493-500 The velocity of money in a life-cycle model 17. Arnab Chatterjee, Bikas K. Chakrabarti, Robin B. Stinchcombe cond-mat/0501413 Phys. Rev. E 72 (2005) 026126 Master equation for a kinetic model of trading market and its analytic solution 18. Abhijit Kar Gupta physics/0505115 Physica A 359 (2006) 634-640 Money Exchange Model and a general Outlook 19. M F Laguna, S Risau Gusman, J R Iglesias physics/0505157 Physia A 356 (2005) 107-113 Economic exchanges in a stratified society: End of the middle class? 20. Srutarshi Pradhan physics/0503105 Random trading market: Drawbacks and a realistic modification 21. Marco Patriarca, Anirban Chakraborti, Kimmo Kaski, Guido Germano physics/0504153 in 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, S. Yarlagadda and B. K. Chakrabarti (2005); Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India Kinetic theory models for the distribution of wealth: power law from overlap of exponentials 22. K Bhattacharya, G Mukherjee, S S Manna physics/0504161 in 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, S. Yarlagadda and B. K. Chakrabarti (2005); Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India Detailed simulation results for some wealth distribution models in Econophysics 23. Sitabhra Sinha physics/0504197 in 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, S. Yarlagadda and B. K. Chakrabarti (2005); Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India The Rich Are Different!: Pareto Law from asymmetric interactions in asset exchange models 24. Arnab Chatterjee, Bikas K. Chakrabarti, Robin B. Stinchcombe physics/0505047 in `Practical Fruits of Econophysics', Conference proceedings of Third Nikkei Symposium on Econophysics, Tokyo, Japan, 2004, by Springer-Verlag, Tokyo, Ed. H. Takayasu (2005). Analyzing money distributions in `ideal gas' models of markets 25. Ning Xi, Ning Ding and Yougui Wang Physica A 357 (2005) 543-555 How required reserve ratio affects distribution and velocity of money 26. Arnab Chatterjee, Bikas K. Chakrabarti physics/0507136 in 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, S. Yarlagadda and B. K. Chakrabarti (2005) pp 79-92; Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India Ideal-Gas Like Markets: Effect of Savings 27. Ning Ding, Ning Xi and Yougui Wang physics/0507158 The Economic Mobility in Money Transfer 28. Yougui Wang, Ning Ding and Ning Xi physics/0507161 in "Practical Fruits of Econophysics", Ed. H. Takayasu (Springer-Verlag Tokyo), Proc. 3rd Nikkei Econophysics Symposium, Tokyo, Nov 2004 Prospects for Money Transfer Models 29. Yougui Wang and Ning Ding physics/0507162 In 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, B. K. Chakrabarti and S. Yarlagadda (2005); Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India, March 2005 Dynamic Process of Money Transfer Models 30. Wang Dahui, Zhou Li and Di Zengru physics/0507163 Physica A (2006) Bipartite Producer-Consumer Networks and the Size Distribution of Firms 31. W.C. Man, H.F. Chau Phys. Rev. E 73 (2006) 036106 physics/0510075 Incorporating Inertia Into Multi-Agent Systems 32. John Angle Physica A 367 (2006) 388-414 The Inequality Process as a wealth maximizing process 33. P. K. Mohanty Phys. Rev E 74 (2006) 011117 physics/0603141 Generic features of the wealth distribution in ideal-gas-like markets 34. Anirban Chakraborti, Marco Patriarca cond-mat/0605325 A Variational Principle for Pareto's power law 35. Marcel Ausloos, Andrzej Pekalski Physica A (2006) nlin/0605023 Model of Wealth and Goods Dynamics in a Closed Market 36. Mao-Bin Hu, Wen-Xu Wang, Rui Jiang, Qing-Song Wu, Bing-Hong Wang and Yong-Hong Wu Eur. Phys. J B 53 (2006) 273 physics/0606085 A Unified Framework for the Pareto Law and Matthew Effect using Scale-Free Networks 37. He Yuqing Physica A 377 (2007) 230-240 Income distribution: Boltzmann analysis and its extension 38. Peter Richmond, Przemek Repetowicz, Stefan Hutzler and Ricardo Coelho Physica A 370 (2006) 43-48 Comments on recent studies of the dynamics and distribution of money 39. Marco Patriarca, Anirban Chakraborti and Guido Germano Physica A 369 (2006) 723-736 Influence of saving propensity on the power-law tail of the wealth distribution 40. G. M. Caon, S. Goncalves, J. R. Iglesias European Physical Journal B nlin.AO/0611001 The unfair consequences of equal opportunities: comparing exchange models of wealth distribution 41. Nicola Scafetta and Bruce J West J. Phys.: Condens. Matter 19 (2007) 065138 Probability distributions in conservative energy exchange models of multiple interacting agents 42. Mao-Bin Hu, Rui Jiang, Qing-Song Wu and Yong-Hong Wu Physica A 381 (2007) 467-472 Simulating the wealth distribution with a Richest-Following strategy on scale-free network 43. M. Patriarca, A. Chakraborti, E. Heinsalu and G. Germano Relaxation in statistical many-agent economy models Eur Phys J B (2007) DOI: 10.1140/epjb/e2007-00122-7 44. G. Hegyi, Z. Neda, M.A. Santos Physica A 380 (2007) 271-277 physics/0509045 Wealth distribution and Pareto's law in the Hungarian medieval society 45. P. Bhattacharyya, A. Chatterjee, B. K. Chakrabarti, Physica A 381 (2007) 377-382; arXiv: physics/0510038. A common origin of the power law distributions in models of market and earthquake, 46. A. Chatterjee, B. K. Chakrabarti, Physica A 382 (2007) 36-41; arXiv: physics/0607258. Ideal-gas like market models with savings: quenched and annealed cases, 47. B. During, G. Toscani Physica A (2007) Hydrodynamics from kinetic models of conservative economies 48. M. Ali Saif and Prashant M. Gade Physica A (2007) Emergence of power-law in a market with mixed models 49. John Angle arXiv:0705.3430 Econophysics of Markets and Business Networks, [Proc. Econophys-Kolkata III], Eds. A. Chatterjee, B.K. Chakrabarti, New Economic Windows Series, Springer, Milan, 2007, pp. 171-196 The Macro Model of the Inequality Process and The Surging Relative Frequency of Large Wage Incomes 50. Peter A. Markowich and Giuseppe Toscani Applied Partial Differential Equations, Springer, Berlin, 2007, pp 185-206 Socio-Economic Modeling 51. Wan Ahmad Tajuddin Wan Abdullah, Sidiq Mohamad Khidzir Kinetic Economies arXiv:0710.1139 52. Ricardo Coelho, Peter Richmond, Joseph Barry, Stefan Hutzler Double power laws in income and wealth distributions arXiv:0710.0917 ___________________________________________________________________________ * Bikas K. Chakrabarti and Arnab Chatterjee Ideal Gas-Like Distributions in Economics: Effects of Saving Propensity, in `Applications of Econophysics', pages 280-285 (2004), Ed. H. Takayasu, Conference proceedings of Second Nikkei Symposium on Econophysics, Tokyo, Japan, 2002, by Springer-Verlag, Tokyo. cond-mat/0302147. 1. Arnab Chatterjee, Bikas K Chakrabarti, S S Manna Physica A 335 (2004) 155-163. cond-mat/0301289 Pareto Law in a Kinetic Model of Market with Random Saving Propensity 2. Sitabhra Sinha Phys. Scr. T 106 (2003) 59 cond-mat/0304324 Stochastic Maps, Wealth Distribution in Random Asset Exchange Models and the Marginal Utility of Relative Wealth 3. Juan C. Ferrero cond-mat/0306322 The statistical distribution of money and the rate of money transference 4. Frantisek Slanina Phys. Rev. E 69 (2004) 046102 cond-mat/0311235 Inelastically scattering particles and wealth distribution in an open economy 5. Arnab Chatterjee, Bikas K. Chakrabarti, S. S. Manna Phy. Scr. T106 (2003) 36 cond-mat/0311227 Money in Gas-Like Markets: Gibbs and Pareto Laws Conference Procedings of International Conference on "Unconventional Applications of Statistical Physics", Kolkata, India, March 2003; 6. Ning Ding, N. Xi and Yougui Wang Eur. Phys. Jour. B 36 (2003) 149-153 Effects of saving and spending patterns on holding time distributions 7. Arnab Chatterjee, Bikas K. Chakrabarti, Robin B. Stinchcombe cond-mat/0501413 Master equation for a kinetic model of trading market and its analytic solution 8. K Bhattacharya, G Mukherjee, S S Manna physics/0504161 Detailed simulation results for some wealth distribution models in Econophysics 9. Przemyslaw Repetowicz, Stefan Hutzler, Peter Richmond cond-mat/0407770 Physics A Dynamics of Money and Income Distributions 10. Arnab Chatterjee, Bikas K. Chakrabarti physics/0507136 in 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, S. Yarlagadda and B. K. Chakrabarti (2005) pp 79-92; Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India Ideal-Gas Like Markets: Effect of Savings __________________________________________________________________________ * Arnab Chatterjee, Bikas K. Chakrabarti, S. S. Manna Phy. Scr. T106 (2003) 36 cond-mat/0311227 Money in Gas-Like Markets: Gibbs and Pareto Laws Conference Procedings of International Conference on "Unconventional Applications of Statistical Physics", Kolkata, India, March 2003; 1. Arnab Chatterjee, Bikas K Chakrabarti, S S Manna Physica A 335 (2004) 155-163. cond-mat/0301289 Pareto Law in a Kinetic Model of Market with Random Saving Propensity 2. Sitabhra Sinha Phys. Scr. T 106 (2003) 59 cond-mat/0304324 Stochastic Maps, Wealth Distribution in Random Asset Exchange Models and the Marginal Utility of Relative Wealth 3. Frantisek Slanina Phys. Rev. E 69 (2004) 046102 cond-mat/0311235 Inelastically scattering particles and wealth distribution in an open economy 4. Juan C. Ferrero Physica A 341 (2004) 575-585 cond-mat/0306322 The statistical distribution of money and the rate of money transference 5. G. Willis, J. Mimkes cond-mat/0406694 Evidence for the Independence of Waged and Unwaged Income, Evidence for Boltzmann Distributions in Waged Income, and the Outlines of a Coherent Theory of Income Distribution 6. Przemyslaw Repetowicz, Stefan Hutzler, Peter Richmond cond-mat/0407770 Physica A 356 (2005) 641-654 Dynamics of Money and Income Distributions 7. G. Willis cond-mat/0408227 Laser Welfare: First Steps in Econodynamic Engineering 8. Arnab Das, Sudhakar Yarlagadda Physica A 353 (2005) 529-538 cond-mat/0409329 An analytic treatment of the Gibbs-Pareto behavior in wealth distribution 9. Philip K. Rawlings, David Reguera and Howard Reiss Physica A 343 (2004) 643-652 Entropic basis of the Pareto law 10. R. Coelho, Z. Neda, J.J. Ramasco, M.A. Santos Physica A 353 (2005) 515-528 cond-mat/0412516 A family-network model for wealth distribution in societies 11. A Christian Silva, Victor M Yakovenko, Europhys. Lett, 69 (2005) 304-310 cond-mat/0406385 12. A Darooneh Non-life insurance pricing: multi-agent model Eur. Phys. J B 42 (2004) 119-122 13. Arnab Chatterjee, Bikas K. Chakrabarti, Robin B. Stinchcombe cond-mat/0501413 Phys. Rev. E 72 (2005) 026126 Master equation for a kinetic model of trading market and its analytic solution 14. Arnab Chatterjee, Bikas K. Chakrabarti, Robin B. Stinchcombe physics/0505047 in `Practical Fruits of Econophysics', Conference proceedings of Third Nikkei Symposium on Econophysics, Tokyo, Japan, 2004, by Springer-Verlag, Tokyo, Ed. H. Takayasu (2005). Analyzing money distributions in `ideal gas' models of markets 15. Arnab Chatterjee, Bikas K. Chakrabarti physics/0507136 in 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, S. Yarlagadda and B. K. Chakrabarti (2005) pp 79-92; Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India Ideal-Gas Like Markets: Effect of Savings 16. Marco Patriarca, Anirban Chakraborti and Guido Germano Physica A 369 (2006) 723-736 Influence of saving propensity on the power-law tail of the wealth distribution 17. John Angle Physica A 367 (2006) 388-414 The Inequality Process as a wealth maximizing process 18. P. K. Mohanty Phys. Rev E 74 (2006) 011117 physics/0603141 Generic features of the wealth distribution in ideal-gas-like markets 19. G. Hegyi, Z. Neda, M.A. Santos Physica A 380 (2007) 271-277 physics/0509045 Wealth distribution and Pareto's law in the Hungarian medieval society 20. A Chakraborti, M Patriarca A Variational Principle for Pareto's power law cond-mat/0605325 21. MA Santos A family-network model for wealth distribution in societies Physica A 353 (2005) 515?528 22. M Patriarca, A Chakraborti, E Heinsalu, G Germano Many-agent models in economic and social sciences physics/0608174 23. A Chatterjee, BK Chakrabarti Eur. Phys J B 54 (2006) 399-404 Kinetic market models with single commodity having price fluctuations 24. AH Darooneh Utility Function from Maximum Entropy Principle cond-mat/0402240 25. M. Patriarca, A. Chakraborti, E. Heinsalu and G. Germano Relaxation in statistical many-agent economy models Eur Phys J B (2007) DOI: 10.1140/epjb/e2007-00122-7 26. Marisciel L. Palima, Eduardo J. David Wealth distribution in a System with Wealth-limited Interactions arXiv:0710.1014 ______________________________________________________________________________ * Arnab Chatterjee and Bikas K. Chakrabarti Competing field pulse induced dynamic transition in Ising models Phase Transitions 77 (2004) 581-600 Special Issue, Ed. S. Puri cond-mat/0312454. 1. Muktish Acharyya cond-mat/0403530 Nonequilibrium Dynamic Phase transitions in ferromagnetic systems: Some new phenomena 2. Muktish Acharyya cond-mat/0508105 Int. J. Mod. Phys. C (2005) Nonequilibrium Phase Transitions in Model Ferromagnets: A Review 3. CHINESE SCIENCE BULLETIN 2005 Vol.50 No.23 P.2583-2587 4. YZ Shao, WR Zhong, HQ Lu, SF Lei Nonequilibrium dynamic phase transition in a kinetic Ising spin system ACTA PHYSICA SINICA 55 (4): 2057-2063 APR 2006 5. D. T. Robb, P. A. Rikvold, A. Berger, M. A. Novotny arXiv:0704.1123 Conjugate field and fluctuation-dissipation relation for the dynamic phase transition in the two-dimensional kinetic Ising model 6. Yuanzhi SHAO, Weirong ZHONG, Zhenhui HE Nonequilibrium dynamic transition in a kinetic Ising model driven by both deterministic modulation and correlated stochastic noises Chinese Science Bulletin 50 (2005) 2422-2426 ______________________________________________________________________________ * Arnab Chatterjee, Bikas K. Chakrabarti, Robin B. Stinchcombe Phys. Rev. E 72 (2005) 026126 cond-mat/0501413 Master equation for a kinetic model of trading market and its analytic solution 1. Abhijit Kar Gupta physics/0505115 Physica A Money Exchange Model and a general Outlook 2. Arnab Chatterjee, Bikas K. Chakrabarti, Robin B. Stinchcombe physics/0505047 in `Practical Fruits of Econophysics', Conference proceedings of Third Nikkei Symposium on Econophysics, Tokyo, Japan, 2004, by Springer-Verlag, Tokyo, Ed. H. Takayasu (2005). Analyzing money distributions in `ideal gas' models of markets 3. Indrani Bose, Subhasis Banerjee physics/0504137 Proc. Econophys-Kolkata I A stochastic model of wealth distribution 5. Marco Patriarca, Anirban Chakraborti, Kimmo Kaski, Guido Germano physics/0504153 Proc. Econophys-Kolkata I Kinetic theory models for the distribution of wealth: power law from overlap of exponentials 6. Arnab Chatterjee, Bikas K. Chakrabarti physics/0507136 in 'Econophysics of Wealth Distributions', Springer-Verlag Italia, Ed. A. Chatterjee, S. Yarlagadda and B. K. Chakrabarti (2005) pp 79-92; Conf. Proc. Econophys-Kolkata I: International Workshop on Econophysics of Wealth Distributions, Kolkata, India Ideal-Gas Like Markets: Effect of Savings 7. Suhan Ree Phys. Rev. E 73 (2006) 026115 Power-law distributions from additive preferential redistributions 8. P. K. Mohanty Phys. Rev E 74 (2006) 011117 physics/0603141 Generic features of the wealth distribution in ideal-gas-like markets 9. M. Patriarca, A. Chakraborti, E. Heinsalu and G. Germano Relaxation in statistical many-agent economy models Eur Phys J B (2007) DOI: 10.1140/epjb/e2007-00122-7 ___________________________________________________________________________ * Arnab Chatterjee, Login times in e-mail servers are scale-free, cond-mat/0307533 1. Alexei Vazquez, Racz Balazs, Lukacs Andras, Albert-Laszlo Barabasi Impact of non-Poisson activity patterns on spreading processes Phys. Rev. Lett. 98 (2007) 158702 physics/0609184 2. Cesar A. Hidalgo R. Scaling in the Inter-Event Time of Random and Seasonal Systems Physica A 369 (2006) 877 3. Cesar A. Hidalgo R. Conditions for the emergence of scaling in the inter-event time of uncorrelated and seasonal systems Physica A 369 (2006) 877-883 ___________________________________________________________________________ * Arnab Chatterjee and Parongama Sen, Phase transitions in Ising model on a Euclidean network, Physical Review E 74 (2006) 036109; preprint available at arXiv: cond-mat/0606138. 1. S. N. Dorogovtsev, A. V. Goltsev, J. F. F. Mendes Critical phenomena in complex networks Adv. Phys. (2007) arXiv:0705.0010 2. Kamalika Basu Hajra, Parongama Sen Effect of a static phase transition on searching dynamics arXiv:0705.0580 3. YunFeng Chang, Liang Sun, Xu Cai Phase transition of a one-dimensional Ising model with distance-dependent connections arXiv:nlin/0703040 4. Zi-Gang Huang, Sheng-Jun Wang, Xin-Jian Xu, Ying-Hai Wang Promote cooperation by localized small-world communication arXiv:0709.0322 5. Balazs Kozma, Matthew B. Hastings, G. Korniss Diffusion Processes on Small-World Networks with Distance-Dependent Random-Links J. Stat. Mech. (2007) P08014 arXiv:0704.2564