ד"ר ירמיהו מילר
Dr. Miller began undergraduate studies at King’s College London in Mathematics and Physics and received an M.Sci in 2004. Subsequently he made aliya and began a Ph.D.in Physics at Tel Aviv University from 2004-2009, on QCD and the Higgs Boson. Between 2009-2013 Dr. Miller was a post-doctorate at the Instituo Superio Tecnico, Lisbon. In 2018 he completed a Ph.D. in Mathematics at Southampton University, England, on machine-learning methods for solving Einstein’s equations for black-hole binaries, and furthered this project for LISA until 2020. From 2020-2023 Dr. Miller was a post-doctorate at Ariel University researching quantum-gravity models of the Higgs Boson, focusing on iterative algorithms for solving the Schwinger-Dyson equations. Presently Dr. Miller is interested in game theory, algorithms for modeling black-hole binaries and gravitational waves, and Higgs-Boson models in quantum gravity. Dr. Miller has published more than twenty peer-reviewed papers in international academic journals and delivered invited lectures at international conferences
קורות חיים
השכלה
2000-2004 MSci Mathematics and Physics, Kings College London.
2004-2009 Ph.D. Physics, Tel Aviv University.
2013-2018 Ph.D. Mathematics, Southampton University.
תחומי מחקר
Gravitational waves from Black Hole binary inspirals.
The gravitational field of photons and massless particles.
Quantum gravity approaches to composite Higgs models.
מענקי מחקר
Fundac˛ão para a ciência a tecnologia May 2009 - May 2012
ERC Research scholarship in Mathematics October 2013 - September 2016
קורסים
Linear Algebra 1
Linear Algebra 2
Calculus 1
Calculus 2
Probability
Game Theory
Cryptography
Mathematical Methods for Physicists
Differential Equations
Mechanics
Electro-magnetism
Electromagnetic Fields
Optics And Waves
Computational Mathematics
פרסומים
[1] J. Miller, G. E. Volovik, and M. A. Zubkov. “Fundamental scalar field with zero dimension from anomaly cancellations”. Phys. Rev. D, 106(1):015021, 2022.
[2] J. Miller and M. A. Zubkov. “Topological Quantization of Fractional Quantum Hall Conductivity”. Symmetry, 14(10):2095, 2022.
[3] M. Selch, J. Miller, and M. A. Zubkov. “Gravastar-like black hole solutions in q-theory”. Class. Quantum Grav., 6 2023.
[4] Maarten van de Meent, Alessandra Buonanno, Deyan P. Mihaylov, Serguei Ossokine, Lorenzo Pompili, Niels Warburton, Adam Pound, Barry Wardell, Leanne Durkan, and Jeremy Miller. “Enhancing the SEOBNRv5 effective-one-body waveform model with second-order gravitational self-force fluxes”. in press Phys. Rev. Lett. D, 3 2023.
[5] Angelica Albertini, Alessandro Nagar, Adam Pound, Niels Warburton, Barry Wardell, Leanne Durkan, and Jeremy Miller. “Comparing second-order gravitational self-force and effective one body waveforms from inspiralling, quasicircular and nonspinning black hole binaries. II. The large-mass-ratio case”. Phys. Rev. D, 106(8):084062, 2022.
[6] Angelica Albertini, Alessandro Nagar, Adam Pound, Niels Warburton, Barry Wardell, Leanne Durkan, and Jeremy Miller. “Comparing second-order gravitational self-force, numerical relativity, and effective one body waveforms from inspiralling, quasicircular, and nonspinning black hole binaries”. Phys. Rev. D, 106(8):084061, 2022.
[7] Barry Wardell, Adam Pound, Niels Warburton, Jeremy Miller, Leanne Durkan, and Alexandre Le Tiec. “Gravitational waveforms for compact binaries from second-order self-force theory”. in press Phys. Rev. Lett. D, 12 2021.
[8] Niels Warburton, Adam Pound, Barry Wardell, Jeremy Miller, and Leanne Durkan. “Gravitational-Wave Energy Flux for Compact Binaries through Second Order in the Mass Ratio”. Phys. Rev. Lett., 127(15):151102, 2021.
[9] Jeremy Miller and Adam Pound. “Two-timescale evolution of extreme-mass-ratio in-spirals: waveform generation scheme for quasicircular orbits in Schwarzschild space-time”. Phys. Rev. D, 103(6):064048, 2021.
[10] Adam Pound, Barry Wardell, Niels Warburton, and Jeremy Miller. “Second-order self-force calculation of the gravitational binding energy in compact binaries”. Phys.Rev. Lett., 124 (2):021101, 2020.
[11] A. Pound and J. Miller. “Practical, covariant puncture for second-order self-force calculations” . Phys. Rev., D 89 (10):104020, 2014.
[12] J. Miller. “The Schwinger-Dyson equation on Pomeron loop summation and renor-malization”. Nucl. Phys., A 836:119–135, 2010.
[13] E. Levin and J. Miller. “The BFKL Pomeron calculus: summing enhanced diagrams”. Nucl. Phys., A 884-885 :51–83, 2012.
[14] Carlos Contreras, Eugene Levin, and Jeremy S. Miller. “BFKL Pomeron calculus: nucleus-nucleus scattering”. Nucl. Phys., A 880 :29–47, 2012.
[15] Andrey Kormilitzin, Eugene Levin, and Jeremy S. Miller. “High density QCD and nucleus-nucleus scattering deeply in the saturation region”. Nucl. Phys., A 859:87–113, 2011.
[16] E. Levin, J. Miller, B. Z. Kopeliovich, and Ivan Schmidt. “Glauber-Gribov approach for DIS on nuclei in N=4 SYM”. JHEP, 02:048, 2009.
[17] Jeremy S. Miller. “Survival probability in diffractive Higgs production in high density QCD”. Eur. Phys. J., C 56:39–55, 2008.
[18] M. Kozlov, E. Levin, V. Khachatryan, and J. Miller. “The BFKL Pomeron calculus in zero transverse dimensions: Diffractive processes and survival probability for central diffractive production”. Nucl. Phys., A 791:382–405, 2007.
[19] E. Gotsman, E. Levin, U. Maor, and J. S. Miller. “A QCD motivated model for soft interactions at high energies”. Eur. Phys. J., C 57:689–709, 2008.
[20] E. Levin and J. Miller. “Two parton shower background for associate W Higgs pro-duction”. Eur. Phys. J., C 61:1–31, 2009.
[21] E. Levin, J. Miller, and A. Prygarin. “Summing Pomeron loops in the dipole ap-proach”. Nucl. Phys., A806:245–286, 2008.
[22] E. Gotsman, E. Levin, U. Maor, and J. S. Miller. “The Phenomenology of Pomeron Enhancement”. In International School on High Energy Physics on Collider Physics: Session C: Workshop on Forward Physics, Exotica and Associated Technologies (LISHEP 2009) Rio de Janeiro, Brazil, January 16-23, 2009, 2009.
[23] J. Miller, B. Wardell, and A. Pound. “Second-order perturbation theory: the problem of infinite mode coupling” . Phys. Rev., D 94 (10):104018, 2016.
[24] J. Miller and M. A. Zubkov. “Quark mass generation due to scalar fields with zero dimension”. 9 2022.
שת"פ עם התעשייה
Head of research at “Independent Financial Trading Management” (IFTM) 2014-2017.
I developed algorithms for stock-market trading of shares and foreign currencies.