CURRICULUM VITAE PERSONAL DETAILS Name: Salah Dablan HAMIEH Birth date: 02-december-1973 Address: École Nationale Supérieure des Télécommunications, 46, rue Barrault - 75013 Paris. E-mail: hamieh@enst.fr Web page: http://www.kvi.nl/~hamieh/ Ph.: 0033619127824 EDUCATION 1997-2000 University of Paris XI, Orsay. Ph.D. in science with Honors Title: Hydrodynamic of quark-gluon plasma in heavy ions collisions: strangeness evolution Supervisor: Dr. J. Letessier Address: Laboratoire de Physique Théorique des Hautes Energies, LPTHE, Tour 24-14, 2 place Jussieu, 75252 Paris Cedex 05, France. E-mail: jletes@lpthe.jussieu.fr Committee Member: D. Schiff M-P Comets J. Lettessier J.-Y Ollitrault J. Rafelski A. Touni 1996-1997 University of Paris XI, Orsay, DEA Champs, Particules, Matières Director: Luc Valentin 1992-1996 Lebanese University Master 1 in general physics with Honors EMPLOYMENT HISTORY 2001-2002 Postdoctoral Fellow/Research Associate in Quantum information University of Lethbridge (Canada) 2002-2004 Postdoctoral Fellow in Nuclear Structure Kernfysisch Versneller Instituut (Netherlands) 2004-2005 Postdoctoral Fellow in Condensed matter physiscs Redboud University (Netherlands) 2005-2007 Teaching position at the Lebanese University 2007-present Postdoctoral Fellow in Nanoelectronics Telecom Paris VISITING ENGAGEMENTS 2000 Guest Scientist University of Arizona (USA) 2002 Guest Scientist GSI Darmstadt (Germany) 2003 Guest Scientist GSI Darmstadt (Germany) 2004 Guest Scientist GSI Darmstadt (Germany) CURRENT RESEARCH INTERESTS Nanotechnolgy Nonequilibrium green fucntion (NEGF) formalism to study MOSFET carbone nanotube transistor. Transprort models for nanotube : Difusion formalism, Classical/Quantum Boltzmann equation, NEGF Simulation with VHDL-AMS of analog circuits using carbone nanotube transistor High Energy Physics Quark-gluon plasma: properties and dynamic Strangeness enhancement in heavy ions collision Canonical and grand canonical description Analysis of SPS-CERN data in heavy ion collisions and modeling Thermal quantum correlations in SU(2)/SU(3) color quarks states Effect of the entanglement on the evaluation of the vacuum polarization due to the quark and the gluon fields Nuclear Physics Study of the structure of unstable nuclei by light-hadron and electron in elastic, inelastic (including giant resonance), and quasielastic scattering Simulations for the task of detection systems and choice of beams and targets for experiments with radio-active nuclei Study of the quantum correlations with nuclear probes The quantum teleportation effect in nuclear reactions Macroscopic effect of the entanglement on the nuclear susceptibility Quantum Information and quantum measurement Classical Correlations in a Quantum System Entanglement Distillation Positive operator-valued measure optimization Nuclear magnetic resonance quantum computer Multiparty entanglement Condensed matter Perturbative approach/effective theory entanglement using pair distribution function in an interacting electron gas Quantum entanglement with quantum monte carlo simulation Structure of the quantum phase transition in transverse Ising model Thermal quantum correlations in many body physics Experimental Nuclear Physics Familiarity with the BBS (Big momentum Bite spectrometer) at the KVI Computation Familiarity with Linux System Administration SUMMARY OF Ph.D. WORK Quantum Chromo-Dynamics (QCD) predicts a new state of matter called the quark-gluon plasma (QGP). In this state the quarks and gluons, the elementary constituent of strongly interacting particles, behave almost as a `gas’ of particles. The experimental realization of conditions that can favorite the formation of QGP is the premier goal of the ultra relativistic heavy ion collisions at RHIC (Brookhaven). Later LHC (CERN-Geneva) is planned to explore a broader range of conditions. The identification of the plasma is challenging from experimental as well as from theoretical point of view. One should be able to mark the plasma by a special tag to distinguish it from all types of matter surrounding it and sharing it many features. In my Ph.D. I have shown, in a qualitative study, that the enhancement of strange baryon and antibaryon, per participant nucleon, observed by the WA97 collaboration at CERN is due to the QGP formation in the initial phase of the collision. Then, I have constructed, a QGP equation of state justified by the latest lattice QCD results. I have shown that physical properties of the fireball of dense matter formed in this collision are well describe by this equation of state. After the analyses of the experimental results, I have developed a hydrodynamic model based on chemical non equilibrium of strange quarks and supercooling of plasma until a temperature lower than the temperature of phase transition. This supercooling is followed by a sudden explosion of the QGP fireball into free-streaming hadrons. The transverse mass spectra and hadron production ratios we obtain are in good agreement with the experimental results. SOFTWARE EXPERIENCE Codes used or developed Having experience with codes like SHUCK3, MEFIT, MEFCAL, PAW++, NTUPOLE etc… Having familiar with GEANT4 Best codes developed: Random developed for simulation of experimental cross section in electron scattering SHASTA made for studying the relativistic evolution of the quark-gluon plasma Software experience Vastly Experienced with all kinds of computer related activities. Mainly well familiar with the operating systems like VMS, WINDOWS, UNIX, LINUX Having experience of computer programming in FORTRAN Having familiar of computer programming in C++, HTML, BASH, perl and JAVA Well educated with internet networking, protocols and software like VIM editor, EMACS editor, powerpoint, xmgls, xmgr, xfig, gle, ftp, telnet, ssh, LaTeX, and many more... Setting up Linux System Administration Teaching experiences 2005-2007: 1.Quantum Physics, 3rd year undergraduate course ( Ref: Sakuray) 2.Nuclear Physics, 4th year undergraduate course (Ref: Crane and some chapters from Greiner) 3.Particle Physics, 4th year undergraduate course (Ref: Martin and introduction to field theory from Lebellac) 4.Condensed Matter, 4th year undergraduate course (Ref: Mahan) 4.Modern Physics, 1st year undergraduate course (Rinsky) CONFERENCES Rencontre de Physique des Particules 1998, LPTHE paris Strangeness 2000, V International Conference on Strangeness in Quark Matter July 2025, 2000 Berkeley, California Workshop on Radioactive-Isotope Physics KVI, February 19-22, 2003 2nd International Workshop on the Future Accelerator Facility for Beams of Ions and Antiprotons, Darmstaft, October 14-17 2003 NUSTAR Workshop, Darmstaft, February 19-21, 2004 PRIZES and AWARDS 1997 Postgraduate Student Prize, Lebanese University 2002 Gold Medal given by the government of poland for our work on strangeness enhancement shared with K. Redlich and A. Tounsi REFEREEING FOR INTERNATIONAL PUBLISHING HOUSE 2004 Referee for Journal of Physics G: Nuclear and particle physics PUBLICATIONS REFEREED PAPERS AS SOLE AUTHOR S. Hamieh Polarization enhancement in d(p, 2He)n reaction: Nuclear teleportation, J. Phys. A: Math. Gen. 37 (2004) L59-L61 S. Hamieh Effect of the unpolarized spin state in spin-correlation measurement of two protons produced in the 12C(d, 2He) reaction, J. Phys. A: Math. Gen. 37 (2004) 2777-2780 REFEREED PAPERS AS JOINT AUTHOR S. Hamieh, M Katsneslon Quantum entanglement dynamics and decoherence wave in spin chains at finite temperature, Phys. Rev. A 72, 032316 (2005) S. Hamieh, A. Tawfik Finite temperature quantum correlations in $SU(2)_c$ quark states and quantum spin models Acta Phys.Polon. B36 (2005) 801-815 S. Hamieh, R. Kobes, and H. Zaraket Positive-operator-valued measure optimization of classical correlations, Phys. Rev. A 70, 052325 (2004) C. Polachic, C. Rangacharyulu, A.M. van den Berg, S. Hamieh, M.N. Harakeh, M. Hunyadi, M.A. de Huu, H.J. Wortche, J. Heyse, C. Baumer., D. Frekers, S.Rakers, J.A. Brooke, and P. Busch Polarization correlations of 1S0 proton pairs as tests of Bell and Wigner inequalities, Phys. Lett. A, 323, 176 (2004) S. Hamieh, H.J. Wortche, C. Baumer, A.M. van den Berg, D. Frekers, M.N. Harakeh, J. Heyse, M. Hunyadi, M.A. de Huu, C. Polachic, C. Rangacharyulu Testing quantum correlations with nuclear probes, J. Phys. G: Nucl. Part. Phys. 30 481 (2004). S. Hamieh and H. Zaraket Distillable entanglement of a mixture of maximally entangled states, quantph/0304107,15 April 2003, J. Phys. A: Math. Gen. 36 (2003) L387-L391 S. Hamieh, J. Qi, D. Siminovitch, and M. K. Ali Extracting Classical Correlations from a Bipartite Quantum System, quant-ph/0211006, Phys. Rev. A67 044301, 2002 J. Letessier, G. Torrieri, S. Hamieh, J. Rafelski QGP fireball explosion, J. Phys. G27 : 427-438, 2001 K. Redlich, S. Hamieh, and A. Tounsi Statistical Hadronization and Strangeness Enhancement from p-A to Pb-Pb Collisions, J. Phys. G27: 413-420, 2001 S. Hamieh, J. Letessier et J. Rafelski Quark-gluon plasma fireball, Phys. Rev. C62 : 064901, 2000 S. Hamieh, K. Redlich et A. Tounsi Canonical description of strangeness enhancement from p--A to Pb--Pb collisions, Phys. Lett. B486 : 61-66, 2000 Submitted Papers S. Hamieh, H.J. Wortche Quantum teleportation effect submitted to Phys. Lett. A S. Hamieh A nuclear physics test for Wigner inequality violation for mixed states submitted to Phys. Lett.A PAPERS IN PREPARATION OR REVISION S. Hamieh, and N. Kalantar Simulations of electron scattering for the future GSI facility (NIM paper) S. Hamieh, H. Zaraket, and M. Katsnelson Coulomb effect on the quantum entanglement in interacting electron gas at finite temperature S. Hamieh, and M. Tawfik Entanglement lenght in Hadronic phase and a comparison with Na49 S. Hamieh Multiparty entanglement and quantum mutual information (J Phys A) NON REFEREED JOURNAL ARTICLES S. Hamieh, Extracting nuclear charge density and testing sensitivity by elastic electron scattering, presented at the Workshop on Radioactive-Isotope Physics (KVI, February 19-22, 2003), to be published S. Hamieh, J. Letessier, J. Rafelski, M. Schoedter et A. Tounsi Free energy of a hot quark-gluon plasma, hep-ph/0004016 S, Hamieh, C. Bertulani g_s-factor quenching with quantum statistics, hep-ph/0410258 S. Hamieh, On the quark-gluon plasma search, hep-ph/0411205 WELL-KNOWN PAPER AT SLAC SPIRES S. Hamieh, K. Redlich, and A. Tounsi Canonical description of strangeness enhancement from p--A to Pb--Pb collisions, Phys. Lett. B486 : 61-66, 2000 REFERENCES M. Katsnelson Dominique Schiff Johann Rafelski Mushin Harakeh M.Katsnelson@science.ru.nl Dominique.Schiff@th.u-psud.fr Johann.Rafelski@cern.ch harakeh@kvi.nl LANGUAGES Arabic, English, French