Physical sciences topic list of research papers
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Magnetic field controlled charge density wave coupling in underdoped YBa2Cu3O6+x2016 / J. Chang, E. Blackburn, O. Ivashko, A. T. Holmes, N. B. Christensen, et al.
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Interpolation effects in tabulated interatomic potentials2015 / M Wen, S M Whalen, R S Elliott, E B Tadmor
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Brillouin lasing in whispering gallery micro-resonators2015 / B Sturman, I Breunig
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Critical point symmetry for the spherical to triaxially deformed shape phase transition
Abstract The critical point T(5) symmetry for the spherical to triaxially deformed shape phase transition is introduced from the Bohr Hamiltonian by approximately separating variables at a given γ deformation with 0 ...
2015 / Yu Zhang, Feng Pan, Yan-An Luo, J.P. Draayer -
Charge nematicity and electronic Raman scattering in iron-based superconductors
Abstract We review the recent developments in electronic Raman scattering measurements of charge nematic fluctuations in iron-based superconductors. A simple theoretical framework of a d-wave Pomeranchuk transition is proposed in order to capture...
2015 / Yann Gallais, Indranil Paul -
Uncertainty relations for angular momentum2015 / Lars Dammeier, René Schwonnek, Reinhard F Werner
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The transverse momentum dependence of charged kaon Bose–Einstein correlations in the SELEX experiment
Abstract We report the measurement of the one-dimensional charged kaon correlation functions using 600 GeV / c ...
2015 / -
Short-range Order Above TC in Ferromagnetic Metals
Abstract We study the spin-density correlations in ferromagnetic metals using the dynamic spin-fluctuation theory. We derive computational formulae for the spatial correlation function and use them to calculate the short-range order above TC in bcc...
2015 / N.B. Melnikov, B.I. Reser -
Analysis of Threshold Neutron Excitation Function Measurements Using Wide Energy Neutron Beams
Abstract In this study we have improved the technique for measuring the neutron activation cross-section using wide energy neutron beams (NAXSUN). We propose a method for the determination of the default function for the unfolding procedure, which...
2014 / L. Daraban, N. Jovančević, S. Oberstedt, F.-J. Hambsch -
The geodesic boundary value problem and its solution on a triaxial ellipsoid2013 / G. Panou
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Satisfying the Einstein–Podolsky–Rosen criterion with massive particles2015 / J. Peise, I. Kruse, K. Lange, B. Lücke, L. Pezzè, et al.
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Blind adaptive carrier phase recovery for QAM systems
Abstract This paper provides a study of adaptive phase recovery in quadrature amplitude modulation (QAM) based communication systems. Here, we modify the traditional fourth-power phase recovery algorithm (FP-PRA) to propose three improved...
2015 / Shafayat Abrar, Azzedine Zerguine, Asoke K. Nandi -
Crossover between strong and weak measurement in interacting many-body systems2016 / Iliya Esin, Alessandro Romito, Ya M Blanter, Yuval Gefen
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C-axis Resistivity of Superconductive FeSe Single Crystals: Upper Critical Field and its Angular Behavior
Abstract We report out-of-plane magnetotransport ρc(B, T) measurements for a high quality superconducting FeSe single crystals in magnetic fields up to 9 Tesla. Samples, grown from the flux under a permanent gradient of temperature with [001]...
2015 / A.V. Sadakov, T.A. Romanova, D.A. Knyazev, D.A. Chareev, V.P. Martovitsky -
Efficient quasi-monoenergetic ion beams from laser-driven relativistic plasmas2015 / Sasi Palaniyappan, Chengkun Huang, Donald C. Gautier, Christopher E. Hamilton, Miguel A. Santiago, et al.
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Latest Developments in Nuclear Emulsion Technology
Abstract Nuclear emulsion is high sensitive photographic film used for detection of three-dimensional trajectory of charged particles. These trajectories are recorded as tracks consist of a lot of silver grains. The size of silver grain is about...
2015 / Kunihiro Morishima -
Effective field theory of emergent symmetry breaking in deformed atomic nuclei2015 / T Papenbrock, H A Weidenmüller
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Ultrafast X-ray scattering from molecules2015 / Adam Kirrander, Kenichiro Saita, Dmitrii V Shalashilin
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SIM(1)–VSR Maxwell–Chern–Simons electrodynamics
Abstract In this paper we propose a very special relativity (VSR)-inspired generalization of the Maxwell–Chern–Simons (MCS) electrodynamics. This proposal is based upon the construction of a proper study of the ...
2016 / R. Bufalo -
Identification of systems containing nonlinear stiffnesses using backbone curves
Abstract This paper presents a method for the dynamic identification of structures containing discrete nonlinear stiffnesses. The approach requires the structure to be excited at a single resonant frequency, enabling measurements to be made in...
2016 / Julián M. Londoño, Jonathan E. Cooper, Simon A. Neild