Kamanasish Debnath scite author profile

A new class of laser, which harnesses coherence in both light and atoms, is possible with ultra-cold alkaline earth atoms trapped in an optical lattice inside an optical cavity. Different lasing regimes, including superradiance, superradiant and conventional lasing, are distinguished by the relative coherence stored in the atoms and in the cavity mode. We analyze the physics in two different experimentally achievable regions of the superradiant lasing regime. Our calculations confirm the narrow linewidth of superradiant lasing for the doubly forbidden clock transition 3 P0 → 1 S0 of strontium-87 atoms. Under strong driving of the dipole-forbidden transition 3 P1 → 1 S0 of strontium-88 atoms the superradiant linewidth narrows further due to the coherent excitation of the cavity field.

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Amplified Optomechanical Transduction of Virtual Radiation Pressure

Cirio

Debnath

Lambert

et al. 2017

Phys. Rev. Lett.

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Leggett-Garg inequality violations with a large ensemble of qubits

et al. 2016

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We investigate how discrete internal degrees of freedom in a quasimacroscopic system affect the violation of the Leggett-Garg inequality, a test of macroscopic realism based on temporal correlation functions. As a specific example, we focus on an ensemble of qubits subject to collective and individual noise. This generic model can describe a range of physical systems, including atoms in cavities, electron or nuclear spins in nitrogen-vacancy (NV) centers in diamond, erbium in Y 2 SiO 5 , bismuth impurities in silicon, or arrays of superconducting circuits, to indicate but a few. Such large ensembles are potentially more macroscopic than other systems that have been used so far for testing the Leggett-Garg inequality and open a route toward probing the boundaries of quantum mechanics at macroscopic scales. We find that, because of the nontrivial internal structure of such an ensemble, the behavior of different measurement schemes, under the influence of noise, can be surprising. We discuss which measurement schemes are optimal for flux qubits and NV centers, and some of the technological constraints and difficulties for observing such violations with present-day experiments.

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