3,964 research outputs found
Thermodynamics of SU(2) bosons in one dimension
On the basis of Bethe ansatz solution of two-component bosons with SU(2)
symmetry and -function interaction in one dimension, we study the
thermodynamics of the system at finite temperature by using the strategy of
thermodynamic Bethe ansatz (TBA). It is shown that the ground state is an
isospin "ferromagnetic" state by the method of TBA, and at high temperature the
magnetic property is dominated by Curie's law. We obtain the exact result of
specific heat and entropy in strong coupling limit which scales like at low
temperature. While in weak coupling limit, it is found there is still no
Bose-Einstein Condensation (BEC) in such 1D system.Comment: 7 page
Single-photon-triggered quantum chaos
We demonstrate how to manipulate quantum chaos with a single photon in a
hybrid quantum device combining cavity QED and optomechanics. Specifically, we
show that this system changes between integrable and chaotic relying on the
photon-state of the injected field. This onset of chaos originates from the
photon-dependent chaotic threshold of the qubit-field coupling induced by the
optomechanical interaction. By deriving the Loschmidt Echo we observe clear
differences in the sensitivity to perturbations in the regular versus chaotic
regimes. We also present classical analog of this chaotic behavior, and find
good correspondence between chaotic quantum dynamics and classical physics. Our
work opens up a new route to achieve quantum manipulations, which are crucial
elements in engineering new types of on-chip quantum devices and quantum
information science.Comment: 11 pages, 4 figure
GTAV-NightRain: Photometric Realistic Large-scale Dataset for Night-time Rain Streak Removal
Rain is transparent, which reflects and refracts light in the scene to the
camera. In outdoor vision, rain, especially rain streaks degrade visibility and
therefore need to be removed. In existing rain streak removal datasets,
although density, scale, direction and intensity have been considered,
transparency is not fully taken into account. This problem is particularly
serious in night scenes, where the appearance of rain largely depends on the
interaction with scene illuminations and changes drastically on different
positions within the image. This is problematic, because unrealistic dataset
causes serious domain bias. In this paper, we propose GTAV-NightRain dataset,
which is a large-scale synthetic night-time rain streak removal dataset. Unlike
existing datasets, by using 3D computer graphic platform (namely GTA V), we are
allowed to infer the three dimensional interaction between rain and
illuminations, which insures the photometric realness. Current release of the
dataset contains 12,860 HD rainy images and 1,286 corresponding HD ground truth
images in diversified night scenes. A systematic benchmark and analysis are
provided along with the dataset to inspire further research
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