Sorin Solomon short CV Full Professor Full Professor at the Racah Institute of Physics of the Hebrew...
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Transcript of Sorin Solomon short CV Full Professor Full Professor at the Racah Institute of Physics of the Hebrew...
Sorin Solomon short CV
Full Professor at the Racah Institute of Physics of the Hebrew University of Jerusalem.
Director, Division of Multi-Agent Systems; Institute for Scientific Interchange Torino.
Past Tasks: Head of the Theoretical Physics Section at the Racah Institute of Physics, Head of the Center for Microphysics and Cosmology, Scientific Head of the Visualization Center at HUJ.
Awards: Levinson Prize, Bantrel Prize at Caltech, J.F. Kennedy Prize, Weizmann Fellowship, Keren Kayemet Prize.
Committees Member: Center for Complexity Science, Jerusalem, Complexus journal, Int. J. Mod. Phys. C, Journal of Statistical Mechanics.
Representative Paper (out of about 200): The importance of being discrete: Life always wins on the surface with Shnerb, Louzoun, Bettelheim, Proc. Natl. Acad. Sci. USA, Vol. 97, Issue 19, 10322-10324, September 12, 2000
Conference Talks (a few tens) , e.g. Plenary talk at EPS-12; The General Conference of the European Physical Society.
Book: Microscopic Simulation of Financial Markets, with M. Levy and H. Levy, Academic Press, New York, 2000.
Media Coverage: BBC, New York Times, Herald Tribune, Boston Globe, Der Standard, New Scientist, Neue Zurische Zeitung, Le Figaro, Business2.0, The Guardian, Nature, Science, Ha’Aretz, Europhysics News, Globe and Mail (Canada), Reuters
What is Complexity?
T-99 0CA water molecule in a container at 990C
T-99 0C
The molecule moves in a disordered way bumping on the walls from time to time.
A water molecule in a container at 990C
T-99 0C
What Happens if one heats the walls of the container by 2 degrees?
A water molecule in a container at 990C
The molecule moves in a disordered way bumping on the walls from time to time.
T-99 0C T-101 0C
Almost nothing: the molecule will bump on the walls in average a little bit faster.
A water molecule in a container at 990C
What Happens if one heats the walls of the container by 2 degrees?
T-99 0C T-101 0C
What happens if one adds 3 more water molecules (at T= 990C) ?
A water molecule in a container at 990C
T-99 0C T-101 0C
Almost nothing! They will also occasionally bump among themselves; Their average speed will be equal to the one of the single molecule before.
T-99 0C
What happens if one adds 3 more water molecules (at T= 990C) ?
T-99 0C T-101 0C
What happens if one increases now the temperature by 20C?
T-99 0C
T-99 0C T-101 0C
Almost nothing, they will just increase a bit their average speed.
T-99 0C T-101 0C
What happens if one increases now the temperature by 20C?
T-99 0C T-101 0C
What happens now, if one introduces in the container 1Kg of such molecules and repeats the experiment of heating the walls by 20C?
T-99 0C T-101 0C
T-99 0C T-101 0C
T-99 0C T-101 0CVery Dramatic Effect:
What happens now, if one introduces in the container 1Kg of such molecules and repeats the experiment of heating the walls by 20C?
T-99 0C T-101 0C
T-99 0C T-101 0C
Very Dramatic Effect: the spatial and speed distributions become inhomogeneous, and a lot of coordinated motion (bubbles) takes place: The water boils.
T-99 0C T-101 0C
Does a new fundamental law of Nature become active in between the 4 molecules and the 1 Kg of water?
T-99 0C T-101 0C
Yes and No: the actual interaction laws between molecules are not changed.
Does a new fundamental law of Nature become active in between the 4 molecules and the 1 Kg of water?
T-99 0C T-101 0C
Yes and No: the actual interaction laws between molecules are not changed.But the existence of a large number of molecules leads to some new, collective, emergent, complex effects of those laws. This is a law of nature of a new type: More is Different(Anderson 1972)
T-99 0C T-101 0C
Could it be that similar effects govern the emergence of life from chemistry, of meaning from simple signals, of societies from individuals, of health from simple cells?
(Anderson 1972)
Could it be that similar effects govern the emergence
of life from chemistry,
of meaning from simple signals,
of societies from individuals,
of health from simple cells
etc?
Could it be that many complex phenomena unexplained until nowcould be the result of simple interactions among their simple components?
To answer this one needs to transcend the traditional research within a single discipline and use trans-disciplinary methods.
This requires growing a new generation of bi- or multi-lingual scientists.
This requires more than a juxtaposition of expertizes.
Main research frameworks:
-The micro-macro representation
-The triangle team
The interdisciplinary research requires typically (at least) 2 senior researchers from the relevant fields (the one knowing about “water molecules” and the one knowing about “boiling”) and one student. It is typically in the mind of the student that the connection between the laws of the water molecules and the laws of boiling will become one.
The research structure of the project will then be
Prof. in Field 1 PhD Student Prof in Field 2
The conceptual structure will be:
Microscopic Elements Microscopic Interactions Emergent Macroscopic Complex Phenomena
My coworkers and I implemented this scheme in a wide range of domains as seen on the following page.
In the process the students became professors, I indicate in brackets their present position .
One can click for their home pages.
Moshe Levy; Assist Prof Finance HUJhttp://bschool.huji.ac.il/levy_shiki.htmlRepresentation of Markets in terms of
Inhomogenous individuals Book Acad Press
Sorin Solomon
Yoram Louzoun; Assist Prof. BIUhttp://www.cs.biu.ac.il/~louzouy/Localization in Groups with Self-
Enhancing trends Bul Math Bio; Artif life
Ester Adi Japha; Faculty BIUElements of children drawings
associated with meaningCognitive Development
Jacob Goldenberg; Assoc Prof HUJhttp://pluto.huji.ac.il/~msgolden/home_page/
Creativity; Novelty Science;NYT
Nava Rubin; Assoc Prof NYU http://www.cns.nyu.edu/~nava/
3D rigid sensation from 2D retina sensors Vision Research
Yehuda Stolov, PhD Dynamics of Stories and
Thought; IJMPC
Lev Muchnikhttp://www.nature.com/nsu/020923/020923-18.html
Collective Phenomena from Individual Behavior
Eran Shir PhD Stud TA;Internet Group Behav;
Europhys News
Avishalom Shalithttp://www.cs.huji.ac.il/~vish/
Self Organization of Open Self-Representation
Uri Hershberg; Postdoc Yalehttp://shum.huji.ac.il/~uriher/Representation of Diseases in terms of many interacting
antigens and antibodies; Phys A
Ifat Levy, Postdoc NYUBrain activity maps
elicited by visual stimuliNature
The resulting complexity publications grouped by “target research field”
(only papers since 1995 are listed)
Generic Complexity
The Microscopic Representation of Complex Macroscopic Phenomena, S. Solomon, Annual Reviews of Computational Physics II pp 243-294, editor D. Stauffer, World Scientific 1995.
Collective Degrees of Freedom and Multiscale Dynamics in Spin Glasses N. Persky and S.Solomon, Phys. Rev. E. 54 (1996) 4399; http://xxx.lanl.gov/abs/cond-mat/9603056
Complexity a Science at 30, S. Solomon and E. Shir, Europhysics News Feb-March 2003 p54
Visual System (reconstructing 3D bodies from 2D moving points)
Restricted Ability to Recover 3D Global Motion from 1 D Motion Signals: Theoretical Observations, N. Rubin, S. Hochstein and S. Solomon, Vision Research 35 (1995) 569-578.
Restricted Ability to Recover 3D Global Motion from 1 D Motion Signals: Psychophysical Observations, N. Rubin, S. Hochstein and S. Solomon, Vision Research 35 (1995) 463-476.
The Microscopic Bases of Vision S. Solomon, in Perspectives on Cognitive Science, vol. 2, ed. B. Kokinov (NBU 1995)
Multiplicative Random walks, Lotka –Volterra systems, Returns Distributions and Pareto Laws
Dynamical Explanation for the Emergence of Power Law in a Stock Market Model, M. Levy and S. Solomon, International Journal of Modern Physics C, Vol. 7, No. 1 (1996) 65-72
Power Laws are Logarithmic Boltzmann Laws M. Levy and S. Solomon International Journal of Modern Physics C , Vol. 7, No. 4 (1996) 595; http://xxx.lanl.gov/abs/adap-org/9607001
Spontaneous Scaling Emergence in Generic Stochastic Systems S. Solomon and M. Levy International Journal of Modern Physics C , Vol. 7, No. 5 (1996) 745 ; http://xxx.lanl.gov/abs/adap-org/9609002
Power-law distributions and L\'evy-stable intermittent fluctuations in stochastic systems of many autocatalytic elements. O. Malcai O. Biham and S. Solomon, Phys. Rev. E, 60, 1299 (1999). http://xxx.lanl.gov/abs/cond-mat/9907320
New Evidence for the Power Law Distribution of Wealth M. Levy and S. Solomon Physica A 242 (1997) 90. http://shum.huji.ac.il/~sorin/power-shiki.ps Generic emergence of power law distributions and L\'evy-stable intermittent fluctuations in discrete logistic systems. O. Biham, O. Malcai, M. Levy and S. Solomon, Phys. Rev. E 58, 1352 (1998). http://xxx.lanl.gov/abs/adap-org/9804001 Stochastic Lotka-Volterra Systems of Competing Auto-catalytic Agents lead Generically to Truncated Pareto Power Wealth Distribution, Truncated Levy Distribution of Market Returns, Clustered Volatility, Booms and Crashes. S. Solomon, in Decision Technologies for Computational Finance, edited by A.-P. Refenes, A. N. Burgess, and J. E. Moody (Kluwer Academic Publishers, 1998). http://xxx.lanl.gov/abs/cond-mat/9803367Generalized Lotka Volterra (GLV) Models of Stock Markets S. Solomon, pp 301-322 in "Applications of Simulation to Social Sciences" , Eds: G Ballot and G Weisbuch; Hermes Science Publications 2000 http://xxx.lanl.gov/abs/cond-mat/9901250Power laws in cities population, financial markets and internet sites (scaling in systems with a variable number of components) Aharon Blank and Sorin Solomon, Physica A 287 (1-2) (2000) pp.279-288 http://xxx.lanl.gov/abs/cond-mat/0003240
Power, Lévy, exponential and Gaussian-like regimes in autocatalytic financial systems, Z.F. Huang and S. Solomon Eur. Phys. J. B 20, (2001) 601-607 http://xxx.lanl.gov/abs/cond-mat/0008026
Finite market size as a source of extreme wealth inequality and market instability Zhi-Feng Huang and Sorin Solomon Physica A , 294 (3-4) (2001) pp. 503-513 http://xxx.lanl.gov/abs/cond-mat/0103170
Long-time fluctuations in a dynamical model of stock market indices Ofer Biham, Zhi-Feng Huang, Ofer Malcai and Sorin Solomon Phys. Rev. E 64, 026101 (2001) http://link.aps.org/abstract/PRE/v64/e026101
Stochastic Multiplicative Processes for Financial Markets Zhi-Feng Huang and Sorin Solomon, Physica A 306 (2002) 412-422
Stability of Pareto-Zipf law in non-stationary economies S. Solomon and P. Richmond in: Economics with heterogeneous interacting agents, ed. by A.Kirman and J.B. Zimmermann, Lecture Notes in Economics and Mathematical Systems, Springer, Berlin- Heidelberg 2001 page 141 http://xxx.lanl.gov/abs/cond-mat/012479
Power Laws of Wealth, Market Order Volumes and Market Returns Sorin Solomon, Peter Richmond Physica A: Statistical Mechanics and its Applications, Vol. 299 (1-2) (2001) pp. 188-197 http://xxx.lanl.gov/abs/cond-mat/0102423
Power Laws are disguised Boltzmann Laws Peter Richmond, Sorin Solomon, International Journal of Modern Physics C, Vol. 12, No. 3 (2001) 333-343 http://xxx.lanl.gov/abs/cond-mat/0010222
Self-Organization and Non-Self-Averaging Effects in Systems of Discrete Auto-Catalytic Elements S. Solomon, pp 351-360 in Multiscale Computational Methods in Chemistry and Physics eds. A. Brandt, J. Bernholc and K. Binder, IOS Press 2001; NATO Science Series III: computer and Systems Sciences Vol. 177.
Volatility driven markets in a generalized Lotka Voltera formalism Louzoun. Y. Solomon. S. (2001). Physica A 302 220-233 http://xxx.lanl.gov/abs/cond-mat/0109493
Theoretical analysis and simulations of the generalized Lotka-Volterra model. O. Malcai, O. Biham, P. Richmond and S. Solomon, Phys. Rev. E66, 031102 (2002).
Co-Evolutionist Stochastic Dynamics: Emergence of Power-LawsPower-laws in stochastic Lotka-Volterra-Eigen-Schuster Systems S. Solomon, P. Richmond, O. Biham and O. Malcai, in: "Towards Cognitive Economics", Eds: P. Bourgine and J.-P. Nadal, Springer (2003).
Artificial Creativity and Novelty Emergence
Creative Sparks Jacob Goldenberg, David Mazursky, and Sorin Solomon Science 285: 1495-1496, 1999; http://shum.huji.ac.il/~sorin/creative-sparks.htm
Toward Identifying the Inventive Templates of New Products: A Channeled Ideation Approach, Goldenberg Jacob, David Mazursky, and Sorin Solomon (1999), Journal of Marketing Research, 36 (May), p. 200-210.
Meme's the Word, Jacob Goldenberg, David Mazursky, and Sorin Solomon Science 1999 November 19; 286: 1477 http://shum.huji.ac.il/~sorin/meme.htm
Templates of original innovation: Projecting original incremental innovations from intrinsic information Goldenberg J. Mazursky D. Solomon S., (1999) Technological Forecasting and Social Change, May, Vol. 61/1 P. 1-12. Creativity Templates: Towards Identifying the Fundamental Schemes of Quality Advertisements; Goldenberg J. Mazursky D. Solomon S. Marketing Science, Volume 18, Number 3, 1999
Scrutinizing Creativity Dennis Hollenberg;, Jacob Goldenberg, David Mazursky, and Sorin Solomon Science 1999 December 17; 286: 2269 http://shum.huji.ac.il/~sorin/creativity.htm
Agent Based Simulations of Stock Markets
Microscopic Simulation of the Stock Market M. Levy, H. Levy and S. Solomon, Journal de Physique I France 5 (1995) 1087-1103. A microscopic model of the stock market; Cycles, booms and crashes, M. Levy, H. Levy and S. Solomon, Economics Letters 45 (1994) 103-111.
The Complex Dynamics of a Simple Stock Market Model M. Levy, N. Persky and S. Solomon Int. J. of High Speed Computing 8 (1996) 93 http://shum.huji.ac.il/~sorin/pers.ps
Behaviorally realistic simulations of stock markets; Traders with a soul, Computer Solomon S Physics Communications 121-122 (1999) 161 . http://xxx.lanl.gov/abs/adap-org/9901003
Pioneers on a new continent: on physics and economicsSorin Solomon and Moshe Levy Quantitative Finance (IoP) Volume 3, Number 1, C12 February 2003
The Interacting Gaps Model: Reconciling Theoretical andNumerical Approaches to Limit-Order Models. L. Muchnik, F. Slanina, and S. Solomon. Physica A 330 (2003) 232.
Statistical Mechanics of Conventional Traders May Lead to Non-Conventional Market Behavior, Lev Muchnik and Sorin Solomon Physica Scripta. Vol. T106, 41–47, 2003
An updated Review of the LLS Stock Market Model: Complex Market Ecology, Power Laws in Wealth Distribution and Market Returns, Sorin Siolomon and Moshe Levy, p69, in New Directions in Statistical Physics, ed. Luc Wille, Springer-Verlag 2004
Other Mental Processes
The Dynamics of Childrens's Drawings. E. Adi, I. Levin and S. Solomon, in Perspectives on Cognitive Science, vol. 2, ed. B. Kokinov (NBU 1995)
Emergence of Representation in Drawing: The Relation Between Kinematic and Referential Aspects Ester Adi-Japha, Iris Levin and S. Solomon Cognitive Development 13, 25-51 (1998)
What Are Stories Made Of? Quantitative Categorical Deconstruction of Creation Y. Stolov, M. Idel, S. Solomon, International Journal of Modern Physics C, Vol. 11, No. 4 (2000) 827-835 http://xxx.lanl.gov/abs/cond-mat/0008192
Structures of the Mind and Universal Music Jacob Goldenberg, David Mazursky, and Sorin Solomon Science 2001 June 29; 292: 2433 http://shum.huji.ac.il/~sorin/structures.htm
Global Propagation by local rules
Marketing percolation J. Goldenberg, B. Libai, S. Solomon, N. Jan and D. Stauffer Physica A, 284 (1-4) (2000) pp. 335-347 , http://xxx.lanl.gov/abs/cond-mat/0005426
Social percolation models Sorin Solomon, Gerard Weisbuch, Lucilla de Arcangelis, Naeem Jan, Dietrich Stauffer Physica A: 277 (1-2) (2000) pp. 239-247 http://shum.huji.ac.il/~sorin/soc-per.ps
Self-organized percolation and critical sales fluctuations Weisbuch G, Solomon S Int. J. Mod. Phys. C 11: (6) 1263-1272 SEP 2000 http://shum.huji.ac.il/~sorin/ws.ps
Social Percolators and Self Organized Criticality. in Handbook of Graphs and Networks: From the Genome to the Internet, pp.113-132 eds. S. Bornholdt and H. G. Schuster, Wiley-VCH, Berlin, 2002.
Solving Traffic Jams: Human Intervention or Self-Organization? E. Mar Or, E. Shir and S. Solomon, International Journal of Modern Physics, Vol. 14, No. 8 p 1007
Emergence and Patterns in Stochastic Autocatalytic Systems
The importance of being discrete: Life always wins on the surface Nadav M. Shnerb, Yoram Louzoun, Eldad Bettelheim, and Sorin Solomon Proc. Natl. Acad. Sci. USA, Vol. 97, Issue 19, 10322-10324, September 12, 2000 http://xxx.lanl.gov/abs/adap-org/9912005
Adaptation of Autocatalytic Fluctuations to Diffusive Noise N. M. Shnerb, E. Bettelheim, Y. Louzoun, O. Agam, S. Solomon Phys Rev E Vol 63, No 2, 2001; http://xxx.lanl.gov/abs/cond-mat/0007097
HIV time hierarchy: winning the war while, loosing all the battles Uri Hershberg, Yoram Louzoun, Henri Atlan and Sorin Solomon Physica A: 289 (1-2) (2001) pp.178-190 ; http://xxx.lanl.gov/abs/nlin.AO/0006023
The Emergence of Spatial Complexity in the immune System. Louzoun, Y, Solomon. S., Atlan. H., Cohen.I.R. (2001) Physica A, 297 (1-2) pp. 242-252.
http://xxx.lanl.gov/html/cond-mat/0008133 The risk of being unfair, the unstable fate of globalization. Louzoun. Y. Mazurski. D.,
Goldberg. J. Solomon. S. (2003) Artificial Life 4(9) 357 - 370 Innovations Refuse to Die:-The Unforeseen Longevity of Society Fundamental
Ideas. Mazurski. D., Goldberg. J. Barak.L. Louzoun. Y. Solomon. S. (2003) Technological forecasting and Social Change In press
Proliferation and competition in discrete biological systems. Louzoun, Y., Atlan, H., Solomon. S., Cohen, I.R (2003) Bulletin of mathematical biology 65(3) 375-396
Reactive Glass and vegetation patterns, N.M. Shnerb, P. Sarah, H. Lavee and S. Solomon, Phys. Rev. Lett. 90 0381011 (2003) [pdf file]