Physical sciences topic list of research papers
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Induced gravitation in nonlinear field models2016 / Alexander A. Chernitskii
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Antisymmetric Spin-Orbit Coupling in a d-p Model on a Zigzag Chain
Abstract We theoretically investigate how an antisymmetric spin-orbit coupling emerges in electrons moving on lattice structures which are centrosymmetric but break the spatial inversion symme- try at atomic positions. We construct an effective d-p...
2015 / Yusuke Sugita, Satoru Hayami, Yukitoshi Motome -
Neutrino mass as a signal of TeV scale physics
Abstract If the origin of neutrino masses is due to physics at the TeV scale, it would be of tremendous interest since it can be probed using ongoing collider as well as low energy rare process searches. So, a key question is: could the new physics...
2016 / Rabindra N. Mohapatra -
Auroral substorms as an electrical discharge phenomenon2015 / Syun-Ichi Akasofu
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Sparse Representations Are Most Likely to Be the Sparsest Possible2006 / Michael Elad
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Single top quark production at the LHC
Abstract This paper is an experimental review of the study of processes with a single top quark at the LHC. The pioneering times are over, and this is now a sector of “precision physics” at colliders. Angular distributions of the decay products of...
2016 / Andrea Giammanco -
Transplanckian masses in inflation
Abstract We explore the possibility that the transplanckian field values needed to accommodate the experimental results in minimally coupled single-field inflation models are only due to our insistence of imposing a minimal coupling of the inflaton...
2016 / Gabriela Barenboim, Oscar Vives -
Bare- and Dressed-Ion Impact Collisions from Neon Atoms Studied Within a Nonperturbative Mean-Field Approach
Abstract We study electron removal processes in collisions of bare and dressed doubly charged ions with neon atoms in the 20 keV/u to 1 MeV/u impact energy regime. The many-electron problem is represented by a single mean field, which in the case of ...
2015 / Gerald Schenk, Tom Kirchner -
Nuclear structure beyond the neutron drip line: The lowest energy states in 9He via their T=5/2 isobaric analogs in 9Li
Abstract The level structure of the very neutron rich and unbound 9He nucleus has been the subject of significant experimental and theoretical study. Many recent works have claimed that the two lowest energy 9He states exist with spins ...
2016 / E. Uberseder, G.V. Rogachev, V.Z. Goldberg, E. Koshchiy, B.T. Roeder, et al. -
Pressure Transient Solutions for Vertically Slotted-Partially Penetrated Vertical Wells in Porous Media2014 / Denis Biryukov, Fikri J. Kuchuk
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Digital Radiography Using Digital Detector Arrays Fulfills Critical Applications for Offshore Pipelines2010 / EdsonVasques Moreira, JoséMaurício Barbosa Rabello, MarcelodosSantos Pereira, RicardoTadeu Lopes, Uwe Zscherpel
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Imaging Shock Waves in Diamond with Both High Temporal and Spatial Resolution at an XFEL2015 / Andreas Schropp, Robert Hoppe, Vivienne Meier, Jens Patommel, Frank Seiboth, et al.
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CONSTRUCTION OF TWO-DIMENSIONAL QUANTUM FIELD MODELS THROUGH LONGO–WITTEN ENDOMORPHISMS2014 / YOH TANIMOTO
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Quasi-Spin Correlations in a Frustrated Quantum Spin Ladder
Abstract The quasi-spin correlations in a frustrated quantum spin ladder with one-half magnetization are theoretically studied by using the density-matrix renormalization-group method and the quasi- spin transformation. In this model, the...
2015 / Takanori Sugimoto, Michiyasu Mori, Takami Tohyama, Sadamichi Maekawa -
Lepton number conservation, long-lived quarks and superweak bileptonic decays
Abstract In the upcoming LHC Run 2, at s ∼ 13 TeV , it is suggested to seek...
2015 / Paul Howard Frampton -
On the Hojman conservation quantities in Cosmology
Abstract We discuss the application of the Hojman's Symmetry Approach for the determination of conservation laws in Cosmology, which has been recently applied by various authors in different cosmological models. We show that Hojman's method for...
2016 / A. Paliathanasis, P.G.L. Leach, S. Capozziello -
Degeneracy relations in QCD and the equivalence of two systematic all-orders methods for setting the renormalization scale
Abstract The Principle of Maximum Conformality (PMC) eliminates QCD renormalization scale-setting uncertainties using fundamental renormalization group methods. The resulting scale-fixed pQCD predictions are independent of the choice of...
2015 / Huan-Yu Bi, Xing-Gang Wu, Yang Ma, Hong-Hao Ma, Stanley J. Brodsky, et al. -
Quasi-bound states of massive scalar fields in the Kerr black-hole spacetime: Beyond the hydrogenic approximation
Abstract Rotating black holes can support quasi-stationary (unstable) bound-state resonances of massive scalar fields in their exterior regions. These spatially regular scalar configurations are characterized by instability timescales which are much ...
2015 / Shahar Hod -
19F-NMR Study on the Equilateral Triangular Spin Tube CsCrF4
Abstract In order to investigate the hyperfine coupling of three inequivalent 19F sites in the equilateral triangular spin-tube antiferromagnet CsCrF4, we have measured the temperature dependence of 19F-NMR Knight shift in the paramagnetic state...
2015 / Kazuki Matsui, Takayuki Goto, Hirotaka Manaka, Yoko Miura -
On the stability of fundamental couplings in the Galaxy
Abstract Astrophysical tests of the stability of Nature's fundamental couplings are a key probe of the standard paradigms in fundamental physics and cosmology. In this report we discuss updated constraints on the stability of the fine-structure...
2015 / S.M. João, C.J.A.P. Martins, I.S.A.B. Mota, P.M.T. Vianez