Results 301 to 310 of about 2,767,698 (346)

Programming a quantum phase of matter

Science, 2021
The ability to measure long-range entanglement may enable robust quantum ...
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Phase transition in supersymmetric matter

Physical Review D, 1986
We consider a supersymmetric U(1) gauge model at high temperature. It is shown that the gauge symmetry is restored at high temperature while supersymmetry remains broken. The fermionic partner of the supersymmetric matter exhibits a first-order discontinuous behavior at the critical temperature as the gauge symmetry shows a smooth or discontinuous ...
, Anand, , Biswas, , Goyal, , Soni
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Phase structure of strange matter

Physical Review D, 1993
We present a detailed discussion of the phase structure of hadronic matter with finite strangeness content and discuss the thermodynamic conditions for the formation of metastable strange quark droplets ( strangelets'') in relativistic nuclear collisions.
, Lee, , Heinz
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Topological Phases of Matter

2021
Topological Phases of Matter are an exceptionally dynamic field of research: several of the most exciting recent experimental discoveries and conceptual advances in modern physics have originated in this field. These have generated new, topological, notions of order, interactions and excitations.
Roderich Moessner, Joel E. Moore
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Equation for Condensed Matter Phase Transitions

Russian Physics Journal, 2021
Concludes combined equation for the pressure drop in the apparatus with stationary and fluidized granular layer, and the resulting recursive equation is used to calculate phase transitions of matter, from the atomic granularity of matter to granular (particulate) material.
A.N. Kharkhardin, I.Yu. Markova
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The Phases of Matter

1987
Various stability problems have been addressed in the preceding chapters, particularly in Chapter 3 where we discussed briefly the stability of the equilibrium states of macroscopic systems. These states are defined by, and are functions of thermodynamic variables which themselves range over certain domains.
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Phase Transitions of Nuclear Matter

Nature, 1939
THE distribution of capture cross-sections of slow neutrons reveals a surprising concentration of strongly absorbing elements in the region of the rare earths1. As has been pointed out2, this fact may be explained in the simplest way by the supposition that the mean spacings between the resonance capture levels of slow neutrons have a minimum in this ...
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Nuclear-matter—quark-matter phase diagram with strangeness

Physical Review D, 1989
A phenomenological equation of state of strongly interacting matter, including strange degrees of freedom, is presented. It is shown that the hyperon and kaon interactions must be included, in order to obtain a reasonable description of the deconfinement transition at high baryon densities.
, Barz, , Friman, , Knoll, , Schulz
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Quantum Phases of Matter

2023
This modern text describes the remarkable developments in quantum condensed matter physics following the experimental discoveries of quantum Hall effects and high temperature superconductivity in the 1980s. After a review of the phases of matter amenable to an independent particle description, entangled phases of matter are described in an accessible ...
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On the phases of compressed matter

JETP Letters, 2008
It is shown that matter during the process of compression under the conditions of complete thermodynamic equilibrium at low temperatures should sequentially pass through 14 monoisotopic phase states. The nuclear subsystem is a Wigner crystal in almost all phases and is a quantum liquid at the maximum pressure.
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