Research

The High Energy Theory Group focuses on understand the fundamental forces of nature and cosmology. The unification of the electromagnetic and weak nuclear force is well understood and is continually being tested experimentally. Among the objectives of the group in Minnesota is to push our understanding beyond the Standard Model of electroweak interactions. The strong nuclear force is inherently more complicated and understand the nature of strongly interacting systems is another major objective of the group.

Particle Astrophysics and Cosmology is another aspect of High Energy theory as the Universe provides a laboratory for studying particle interactions at energies much higher than can be achieved experimentally. Topics which are actively pursued include, inflation, the baryon asymmetry, dark matter, nucleosynthesis and large scale structure.

As condensed matter theorists, one of our main goals is to understand how the microscopic behavior of a very large number of atoms or molecules is related to the macroscopic properties of solids and liquids. While this certainly applies to objects common in our daily lives, such as kitchen salt or water, we are also interested in quantum versions of solids, liquids, and gases. For example, the properties of many metals are well described in terms of a gas of nearly independent electrons, whereas in other systems the electron-electron interaction is so significant that they behave as strongly correlated quantum liquids.

At first sight, the problem may seem deceivingly straightforward, after all, the ions and electrons forming the atoms only talk to each other via the good old electrostatic repulsion. However, it turns out that the quantum-mechanical collective behavior of condensed matter systems is often very different than just the simple sum of its constituents. This phenomenon, called emergence, is behind many unique and fascinating properties, among which superconductivity is perhaps the best known.

Condensed matter theory is a very broad area, that ranges from concrete applications to more abstract models. At the University of Minnesota, we have a vibrant condensed matter theory group working on a diverse set of topics, such as quantum materials, superconductivity, liquid crystals, quantum magnets, topological quantum matter, disordered systems, and non-equilibrium physics. We also enjoy frequent collaborations with the condensed matter experimental group, creating an engaging atmosphere to perform research in this field.

Paper Title	Author	Reference
Remarks on the Novikov-Shifman-Vainshtein-Zakahrov ß functions in two-dimensional N=(0,2) supersymmetric models	J. Chen, M. Shifman	Phys.Rev. D99 (2019) no.6, 065007
Strange hadrocharmonium	M.B. Voloshin	Phys.Lett. B798 (2019) 135022
Radiative production of nonthermal dark matter	K. Kaneta, Y. Mambrini, K.A. Olive	Phys.Rev. D99 (2019) no.6, 063508
Hillclimbing inflation in metric and Palatini formulations	R. Jinno, K. Kaneta, K. Oda, S.C. Park	Phys.Lett. B791 (2019) 396-402
Global Analysis of Dark Matter Simplified Models with Leptophobic Spin-One Mediators using MasterCode	E. Bagnaschi et al.	Eur.Phys.J. C79 (2019) no. 11, 895
Radiative and pionic transitions Z_c(4020)⁰→X(3872)_γ and Z_c(4020)^±→X(3872)π^±	M.B. Voloshin	Phys.Rev. D99 (2019) no.5, 054028
Teaching Physics at School and Colleges	M. Shifman	The Physics Educator, Vol. 01, No. 01, 1950003 (2019)
A Minimal SU(5) SuperGUT in Pure Gravity Mediation	J. Evans, N. Nagata, K.A. Olive	Eur.Phys.J. C79 (2019) no.6, 490
Worldsheets in Holography: Computing Corrections to the Veneziano Amplitude	E. Ireson	Mod.Phys.Lett. A34 (2019) no.14, 1930002
Hidden-charm pentaquark formation in antiproton-deuterium collisions	M.B. Voloshin	Phys.Rev. D99 (2019) no.9, 093003
Unified No-Scale Model of Modulus Fixing, Inflation, Supersymmetry Breaking, and Dark Energy	J. Ellis, D. Nanopoulos, K.A. Olive, S. Verner	Phys.Rev. D100 (2019) 025009
Composite Non-Abelian Strings with Grassmannian Models on the World Sheet	E. Ireson, M. Shifman, A. Yung	Phys.Rev.Research. 1 (2019) 023002
Quantizing a solitonic string	M. Shifman, A. Yung	JHEP 1912 (2019) 050
Limits on R-parity Violation in High Scale Supersymmetry	E. Dudas, T. Gherghetta, K. Kaneta, Y. Mambrini, K.A. Olive	Phys.Rev. D100 (2019) no.3, 035004
From Gauged Linear Sigma Models to Geometric Representation of WCP(N,Ñ) in 2D	C-H. Sheu, M. Shifman
Deciphering the XYZ States	M.B. Voloshin	Conference: C19-05-06
Unified No-Scale Attractors	J. Ellis, D. Nanopoulos, K.A. Olive, S. Verner	JCAP 1909 (2019) no.09, 040
Cosmology with a Master Coupling in Flipped SU(5) × U(1): The λ₆ Universe	J. Ellis, M. Garcia, N. Nagata, D. Nanopoulos, K.A. Olive	Phys.Lett. B797 (2019) 134864
Some decay properties of hidden-charm pentaquarks as baryon-meson molecules	M.B. Voloshin	Phys.Rev. D100 (2019) no. 3 034020
From Minkowski to de Sitter in Multifield No-Scale Models	J. Ellis, B. Nagaraj, D. Nanopoulos, K.A. Olive, S. Verner	JHEP 1910 (2019) 161
The Hubbard model on a triangular lattice -- pseudogap due to spin-density-wave fluctuations	M. Ye, A. Chubukov	Phys. Rev. B 100, 035135 (2019)
Implicit renormalization approach to the problem of Cooper instability	A. Chubukov, N. Prokof'ev, B. Svistunov	Phys. Rev. B 100, 064513 (2019)
Dynamic properties of superconductors: Anderson-Bogoliubov mode and Berry phase in BCS and BEC regimes	D. Mozyrsky, A. Chubukov	Phys. Rev. B 99, 174510 (2019)
Phonon mediated superconductivity in low carrier-density systems	M. Gastiasoro, A. Chubukov, R. Fernandes	Phys. Rev. B 99, 094524 (2019)
Quantum criticality of granular SYK matter	A. Altland, D. Bagrets, A. Kamenev	Phys. Rev. Lett. 123, 106601 (2019)
Finite Size Scaling at the Topological Transition: Bilinear-Biquadratic Spin-1 Chain	Y. Wang, A. Kamenev
Giant violation of Wiedemann-Franz law in doping layers of modern AlGaAs heterostructures	M. Sammon, M. Banerjee, B. Shklovskii
Attraction of indirect excitons in van der Waals heterostructures with three semiconducting layers	M. Sammon, B. Shklovskii	Phys. Rev. B 99, 165403 (2019)
Constraining ν-Process Production of Fluorine through Cosmic Ray Nucleosynthesis	K.A. Olive, E. Vangioni	Mon.Not.Roy.Astron.Soc. 490 (2019) no.3, 4307-4316
Evaluating the Price of Tiny Kinetic Mixing	T. Gherghetta, J. Kersten, K.A. Olive, M. Pospelov	Phys.Rev. D100 (2019) no.9, 095001
Superstring-Inspired Particle Cosmology: Inflation, Neutrino Masses, Leptogenesis, Dark Matter, & the SUSY Scale	J. Ellis, M. Garcia, N. Nagata, D. Nanopoulos, K.A. Olive
Big-Bang Nucleosynthesis After Planck	B. Fields, K.A. Olive, T.-H. Yeh, C. Young
Inflation and Leptogenesis in High-Scale Supersymmetry	K. Kaneta, Y. Mambrini, K.A. Olive	Phys.Rev. D101 (2020) no.1, 015002
Update on Splitting of Lifetimes of c and b Hyperons within the Heavy Quark Expansion and Decays Ξ_Q→Λ_Qπ	M.B. Voloshin	Phys.Rev. D100 (2019) no.11, 114030
Supersymmetric Proton Decay Revisited	J. Ellis, J. Evans, N. Nagata, K.A. Olive, L. Velasco-Sevilla
Musings on the Current Status of HEP	M. Shifman
The Interplay Between Superconductivity and Non-Fermi Liquid at a Quantum-Critical Point in a Metal	A. Chubukov, A. Abanov, Y. Wang, Y.-M. Wu
Hidden and Mirage Collective Mode in Two Dimensional Fermi Liquids	A. Klein, D. Maslov, A. Chubukov
Nematic Superconductivity in Twisted Bilayer Graphene	D. Chichinadze, L. Classen, A. Chubukov
Kohn-Luttinger Correction to Tc in a Phonon Superconductor	D. Phan, A. Chubukov
Raman Response in the Nematic Phase of FeSe	M. Udina, M. Grilli, L. Benfatto, A. Chubukov
Orbital Transutation and the Electronic Spectrum of FeSe in the Nematic Phase	M. Christensen, R. Fernandes, A. Chubukov
Collective Modes Near a Pomeranchuk Instability	A. Klein, D. Maslov, L. Pitaevskii, A. Chubukov	Phys. Rev. Research 1, 033134 (2019)
SYK non Fermi Liquid Correclations in Nanoscopic Quantum Transport	A. Altland, D. Bagrets, A. Kamenev	Phys. Rev. Lett. 123, 226801 (2019)
Emptiness Formation Probability in 1D Bose Liquids	H.-C. Yeh, A. Kamenev
Helical Spin Liquid in a Triangular XXZ Magnet from Chern-Simons Theory	T. Sedrakyan, R. Moessner, A. Kamenev
Resistivity Anisotropy of Quantum Hall Stripe Phases	M. Sammon et al.	Phys. Rev. B 100, 241303 (2019)
Anderson Transition in Three-Dimensional Systems with non-Hermitian Disorder	Y. Huang, B. Shklovskii

High Energy Theory & Particle Astrophysics

Condensed Matter Theory

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