Tishuo Wang scite author profile

The decay of any unstable quantum state can be inhibited or enhanced by carefully tailored measurements, known as the quantum Zeno effect (QZE) or anti-Zeno effect (QAZE). To date, studies of QZE (QAZE) transitions have since expanded to various system-environment coupling, in which the time evolution can be suppressed (enhanced) not only by projective measurement but also through dissipation processes. However, a general criterion, which could extend to arbitrary dissipation strength and periodicity, is still lacking. In this letter, we show a general framework to unify QZE-QAZE effects and parity-time (PT ) symmetry breaking transitions, in which the dissipative Hamiltonian associated to the measurement effect is mapped onto a PT -symmetric non-Hermitan Hamiltonian, thus applying the PT symmetry transitions to distinguish QZE (QAZE) and their crossover behavior. As a concrete example, we show that, in a two-level system periodically coupled to a dissipative environment, QZE starts at an exceptional point (EP), which separates the PT -symmetric (PTS) phase and PT -symmetry broken (PTB) phase, and ends at the resonance point (RP) of the maximum PT -symmetry breaking; while QAZE extends the rest of PTB phase and remains the whole PTS phase. Such findings reveal a hidden relation between QZE-QAZE and PTS-PTB phases in non-Hermitian quantum dynamics.

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Beam pointing stabilization of an acousto-optic modulator with thermal control

Zhang¹,

Chen²,

Fang³

et al. 2019

Opt. Express

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Diffraction beams generated by an acousto-optic modulator (AOM) are widely used in various optical experiments, some of which require high angular stability with the temporal modulation of optical power. Usually, it is difficult to realize both angular stability and highpower modulation in a passive setup without a servo system of radio-frequency compensation.Here, we present a method to suppress the angular drift and pointing noise only with the thermal management of the AOM crystal. We analyze the dependence of the angular drift on the refractive index variation, and find that the angular drift is very sensitivity to the temperature gradient which could induce the refractive index gradient inside the AOM crystal. It reminds us such angular drift could be significantly suppressed by carefully overlapping the zero temperature gradient area with the position of the acousto-optic interaction zone. We implement a watercooling setup, and find that the angular drift of an AOM is reduced over 100 times during the thermal transient, and the angular noise is also suppressed to 1/3 of the non-cooled case. It should be emphasized that this thermal control method is a general to suppress the beam drift in both the diffraction and the perpendicular-to-diffraction directions. The refractive index thermal coefficient of tellurium dioxide crystal at 1064 nm determined by this angular drift-temperature model is 16×10 −6 K −1 consistent with previous studies. This thermal control technique provides potential applications for optical trapping and remote sensoring that demand for intensity ramps.

show abstract

Beam pointing stabilization of an acousto-optic modulator with thermal control

Zhang

Chen

Fang

et al. 2022

Preprint

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Tishuo Wang

Observation of two 𝓟𝓣 transitions in an electric circuit with balanced gain and loss

Unification of quantum Zeno-anti Zeno effects and parity-time symmetry breaking transitions

Beam pointing stabilization of an acousto-optic modulator with thermal control

Beam pointing stabilization of an acousto-optic modulator with thermal control

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