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Physical Review Letters

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https://www.readbyqxmd.com/read/28234547/landau-zener-st%C3%A3-ckelberg-interferometry-in-quantum-dots-with-fast-rise-times-evidence-for-coherent-phonon-driving
#1
M Korkusinski, S A Studenikin, G Aers, G Granger, A Kam, A S Sachrajda
Manipulating qubits via electrical pulses in a piezoelectric material such as GaAs can be expected to generate incidental acoustic phonons. In this Letter we determine theoretically and experimentally the consequences of these phonons for semiconductor spin qubits using Landau-Zener-Stückelberg interferometry. Theoretical calculations predict that phonons in the presence of the spin-orbit interaction produce both phonon-Rabi fringes and accelerated evolution at the singlet-triplet anticrossing. Observed features confirm the influence of these mechanisms...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234546/discrete-fluctuations-in-memory-erasure-without-energy-cost
#2
Toshio Croucher, Salil Bedkihal, Joan A Vaccaro
According to Landauer's principle, erasing one bit of information incurs a minimum energy cost. Recently, Vaccaro and Barnett (VB) explored information erasure within the context of generalized Gibbs ensembles and demonstrated that for energy-degenerate spin reservoirs the cost of erasure can be solely in terms of a minimum amount of spin angular momentum and no energy. As opposed to the Landauer case, the cost of erasure in this case is associated with an intrinsically discrete degree of freedom. Here we study the discrete fluctuations in this cost and the probability of violation of the VB bound...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234545/magnetic-field-dependence-of-excitations-near-spin-orbital-quantum-criticality
#3
A Biffin, Ch Rüegg, J Embs, T Guidi, D Cheptiakov, A Loidl, V Tsurkan, R Coldea
The spinel FeSc_{2}S_{4} has been proposed to realize a near-critical spin-orbital singlet (SOS) state, where entangled spin and orbital moments fluctuate in a global singlet state on the verge of spin and orbital order. Here we report powder inelastic neutron scattering measurements that observe the full bandwidth of magnetic excitations and we find that spin-orbital triplon excitations of an SOS state can capture well key aspects of the spectrum in both zero and applied magnetic fields up to 8.5 T. The observed shift of low-energy spectral weight to higher energies upon increasing applied field is naturally explained by the entangled spin-orbital character of the magnetic states, a behavior that is in strong contrast to spin-only singlet ground state systems, where the spin gap decreases upon increasing applied field...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234544/odd-integer-quantum-hall-states-and-giant-spin-susceptibility-in-p-type-few-layer-wse_-2
#4
Shuigang Xu, Junying Shen, Gen Long, Zefei Wu, Zhi-Qiang Bao, Cheng-Cheng Liu, Xiao Xiao, Tianyi Han, Jiangxiazi Lin, Yingying Wu, Huanhuan Lu, Jianqiang Hou, Liheng An, Yuanwei Wang, Yuan Cai, K M Ho, Yuheng He, Rolf Lortz, Fan Zhang, Ning Wang
We fabricate high-mobility p-type few-layer WSe_{2} field-effect transistors and surprisingly observe a series of quantum Hall (QH) states following an unconventional sequence predominated by odd-integer states under a moderate strength magnetic field. By tilting the magnetic field, we discover Landau level crossing effects at ultralow coincident angles, revealing that the Zeeman energy is about 3 times as large as the cyclotron energy near the valence band top at the Γ valley. This result implies the significant roles played by the exchange interactions in p-type few-layer WSe_{2}, in which itinerant or QH ferromagnetism likely occurs...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234543/erratum-comparison-of-spectral-linewidths-for-quantum-degenerate-bosons-and-fermions-phys-rev-lett-117-213001-2016
#5
R P M J W Notermans, R J Rengelink, W Vassen
This corrects the article DOI: 10.1103/PhysRevLett.117.213001.
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234542/critical-velocity-in-the-presence-of-surface-bound-states-in-superfluid-3-he-b
#6
P Zheng, W G Jiang, C S Barquist, Y Lee, H B Chan
A microelectromechanical oscillator with a gap of 1.25  μm was immersed in superfluid ^{3}He-B and cooled below 250  μK at various pressures. Mechanical resonances of its shear motion were measured at various levels of driving force. The oscillator enters into a nonlinear regime above a certain threshold velocity. The damping increases rapidly in the nonlinear region and eventually prevents the velocity of the oscillator from increasing beyond the critical velocity which is much lower than the Landau critical velocity...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234541/kibble-zurek-scaling-in-the-yang-lee-edge-singularity
#7
Shuai Yin, Guang-Yao Huang, Chung-Yu Lo, Pochung Chen
We study the driven dynamics across the critical points of the Yang-Lee edge singularities (YLESs) in a finite-size quantum Ising chain with an imaginary symmetry-breaking field. In contrast to the conventional classical or quantum phase transitions, these phase transitions are induced by tuning the strength of the dissipation in a non-Hermitian system and can occur even at finite size. For conventional phase transitions, universal behaviors in driven dynamics across critical points are usually described by the Kibble-Zurek mechanism, which states that the scaling in dynamics is dictated by the critical exponents associated with one critical point and topological defects will emerge after the quench...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234540/characterizing-neutron-proton-equilibration-in-nuclear-reactions-with-subzeptosecond-resolution
#8
A Jedele, A B McIntosh, K Hagel, M Huang, L Heilborn, Z Kohley, L W May, E McCleskey, M Youngs, A Zarrella, S J Yennello
We study neutron-proton equilibration in dynamically deformed atomic nuclei created in nuclear collisions. The two ends of the elongated nucleus are initially dissimilar in composition and equilibrate on a subzeptosecond time scale following first-order kinetics. We use angular momentum to relate the breakup orientation to the time scale of the breakup. The extracted rate constant is 3  zs^{-1}, which corresponds to a mean equilibration time of 0.3 zs. This technique enables new insight into the nuclear equation of state that governs many nuclear and astrophysical phenomena leading to the origin of the chemical elements...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234539/cavity-assisted-measurement-and-coherent-control-of-collective-atomic-spin-oscillators
#9
Jonathan Kohler, Nicolas Spethmann, Sydney Schreppler, Dan M Stamper-Kurn
We demonstrate continuous measurement and coherent control of the collective spin of an atomic ensemble undergoing Larmor precession in a high-finesse optical cavity. The coupling of the precessing spin to the cavity field yields phenomena similar to those observed in cavity optomechanics, including cavity amplification, damping, and optical spring shifts. These effects arise from autonomous optical feedback onto the atomic spin dynamics, conditioned by the cavity spectrum. We use this feedback to stabilize the spin in either its high- or low-energy state, where, in equilibrium with measurement backaction heating, it achieves a steady-state temperature, indicated by an asymmetry between the Stokes and the anti-Stokes scattering rates...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234538/self-channeling-of-high-power-long-wave-infrared-pulses-in-atomic-gases
#10
K Schuh, M Kolesik, E M Wright, J V Moloney, S W Koch
We simulate and elucidate the self-channeling of high-power 10  μm infrared pulses in atomic gases. The major new result is that the peak intensity can remain remarkably stable over many Rayleigh ranges. This arises from the balance between the self-focusing, diffraction, and defocusing caused by the excitation induced dephasing due to many-body Coulomb effects that enhance the low-intensity plasma densities. This new paradigm removes the Rayleigh range limit for sources in the 8-12  μm atmospheric transmission window and enables transport of individual multi-TW pulses over multiple kilometer ranges...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234537/quantum-annealing-via-environment-mediated-quantum-diffusion
#11
Vadim N Smelyanskiy, Davide Venturelli, Alejandro Perdomo-Ortiz, Sergey Knysh, Mark I Dykman
We show that quantum diffusion near a quantum critical point can provide an efficient mechanism of quantum annealing. It is based on the diffusion-mediated recombination of excitations in open systems far from thermal equilibrium. We find that, for an Ising spin chain coupled to a bosonic bath and driven by a monotonically decreasing transverse field, excitation diffusion sharply slows down below the quantum critical region. This leads to spatial correlations and effective freezing of the excitation density...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234536/spin-polarization-and-attosecond-time-delay-in-photoemission-from-spin-degenerate-states-of-solids
#12
Mauro Fanciulli, Henrieta Volfová, Stefan Muff, Jürgen Braun, Hubert Ebert, Jan Minár, Ulrich Heinzmann, J Hugo Dil
After photon absorption, electrons from a dispersive band of a solid require a finite time in the photoemission process before being photoemitted as free particles, in line with recent attosecond-resolved photoemission experiments. According to the Eisenbud-Wigner-Smith model, the time delay is due to a phase shift of different transitions that occur in the process. Such a phase shift is also at the origin of the angular dependent spin polarization of the photoelectron beam, observable in spin degenerate systems without angular momentum transfer by the incident photon...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234535/anomalous-metal-phase-emergent-on-the-verge-of-an-exciton-mott-transition
#13
Fumiya Sekiguchi, Toshimitsu Mochizuki, Changsu Kim, Hidefumi Akiyama, Loren N Pfeiffer, Ken W West, Ryo Shimano
We investigate the exciton Mott transition (EMT) by using optical pump-terahertz probe spectroscopy on GaAs, with realizing the condition of Mott's gedanken experiment by the resonant excitation of 1s excitons. We show that an anomalous metallic phase emerges on the verge of the EMT as manifested by a peculiar enhancement of the quasiparticle mass and scattering rate. From the temperature and density dependence, the observed anomaly is shown to originate from the electron-hole (e-h) correlation which becomes prominent at low temperatures, possibly suggesting a precursor of e-h Cooper pairing...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234534/glass-transitions-in-monodisperse-cluster-forming-ensembles-vortex-matter-in-type-1-5-superconductors
#14
Rogelio Díaz-Méndez, Fabio Mezzacapo, Wolfgang Lechner, Fabio Cinti, Egor Babaev, Guido Pupillo
At low enough temperatures and high densities, the equilibrium configuration of an ensemble of ultrasoft particles is a self-assembled, ordered, cluster crystal. In the present Letter, we explore the out-of-equilibrium dynamics for a two-dimensional realization, which is relevant to superconducting materials with multiscale intervortex forces. We find that, for small temperatures following a quench, the suppression of the thermally activated particle hopping hinders the ordering. This results in a glass transition for a monodispersed ensemble, for which we derive a microscopic explanation in terms of an "effective polydispersity" induced by multiscale interactions...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234533/graviton-and-gluon-scattering-from-first-principles
#15
Rutger H Boels, Ricardo Medina
Graviton and gluon scattering are studied from minimal physical assumptions such as Poincare and gauge symmetry as well as unitarity. The assumptions lead to an interesting and surprisingly restrictive set of linear equations. This shows gluon and graviton scattering to be related in many field and string theories, explaining and extending several known results. By systematic analysis exceptional graviton scattering amplitudes are derived, which in general dimensions cannot be related to gluon amplitudes. The simplicity of the formalism guarantees wide further applicability to gauge and gravity theories...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234532/laser-spectroscopy-of-the-fine-structure-splitting-in-the-2-3-p_-j-levels-of-4-he
#16
X Zheng, Y R Sun, J-J Chen, W Jiang, K Pachucki, S-M Hu
The fine-structure splitting in the 2^{3}P_{J} (J=0, 1, 2) levels of ^{4}He is of great interest for tests of quantum electrodynamics and for the determination of the fine-structure constant α. The 2^{3}P_{0}-2^{3}P_{2} and 2^{3}P_{1}-2^{3}P_{2} intervals are measured by laser spectroscopy of the ^{3}P_{J}-2^{3}S_{1} transitions at 1083 nm in an atomic beam, and are determined to be 31 908 130.98±0.13  kHz and 2 291 177.56±0.19  kHz, respectively. Compared with calculations, which include terms up to α^{5}Ry, the deviation for the α-sensitive interval 2^{3}P_{0}-2^{3}P_{2} is only 0...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234531/testing-the-axion-conversion-hypothesis-of-3-5%C3%A2-kev-emission-with-polarization
#17
Yan Gong, Xuelei Chen, Hua Feng
The recently measured 3.5 keV line in a number of galaxy clusters, the Andromeda galaxy (M31), and the Milky Way (MW) center can be well accounted for by a scenario in which dark matter decays to axionlike particles (ALPs) and subsequently convert to 3.5 keV photons in magnetic fields of galaxy clusters or galaxies. We propose to test this hypothesis by performing x-ray polarization measurements. Since ALPs can only couple to photons with a polarization orientation parallel to the magnetic field, we can confirm or reject this model by measuring the polarization of the 3...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234530/unifying-gate-synthesis-and-magic-state-distillation
#18
Earl T Campbell, Mark Howard
The leading paradigm for performing a computation on quantum memories can be encapsulated as distill-then-synthesize. Initially, one performs several rounds of distillation to create high-fidelity magic states that provide one good T gate, an essential quantum logic gate. Subsequently, gate synthesis intersperses many T gates with Clifford gates to realize a desired circuit. We introduce a unified framework that implements one round of distillation and multiquibit gate synthesis in a single step. Typically, our method uses the same number of T gates as conventional synthesis but with the added benefit of quadratic error suppression...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234529/first-results-from-a-microwave-cavity-axion-search-at-24%C3%A2-%C3%A2-%C3%AE-ev
#19
B M Brubaker, L Zhong, Y V Gurevich, S B Cahn, S K Lamoreaux, M Simanovskaia, J R Root, S M Lewis, S Al Kenany, K M Backes, I Urdinaran, N M Rapidis, T M Shokair, K A van Bibber, D A Palken, M Malnou, W F Kindel, M A Anil, K W Lehnert, G Carosi
We report on the first results from a new microwave cavity search for dark matter axions with masses above 20  μeV. We exclude axion models with two-photon coupling g_{aγγ}≳2×10^{-14}  GeV^{-1} over the range 23.55<m_{a}<24.0  μeV. These results represent two important achievements. First, we have reached cosmologically relevant sensitivity an order of magnitude higher in mass than any existing limits. Second, by incorporating a dilution refrigerator and Josephson parametric amplifier, we have demonstrated total noise approaching the standard quantum limit for the first time in an axion search...
February 10, 2017: Physical Review Letters
https://www.readbyqxmd.com/read/28234528/exciton-polariton-fano-resonance-driven-by-second-harmonic-generation
#20
Yafeng Wang, Liming Liao, Tao Hu, Song Luo, Lin Wu, Jun Wang, Zhe Zhang, Wei Xie, Liaoxin Sun, A V Kavokin, Xuechu Shen, Zhanghai Chen
Angle-resolved second harmonic generation (SHG) spectra of ZnO microwires show characteristic Fano resonances in the spectral vicinity of exciton-polariton modes. We observe a resonant peak followed by a strong dip in SHG originating from the constructive and destructive interference of the nonresonant SHG and the resonant contribution of the polariton mode. It is demonstrated that the Fano line shape, and thus the Fano asymmetry parameter q, can be tuned by the phase shift of the two channels. We develop a model to calculate the phase-dependent q as a function of the radial angle in the microwire and achieve a good agreement with the experimental results...
February 10, 2017: Physical Review Letters
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