B. Virgin Jenisha scite author profile

B. Virgin Jenisha

4Publications

10Citation Statements Received

179Citation Statements Given

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University of Madras

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Quasi-Bell states in a strongly coupled qubit–oscillator system and their delocalization in the phase space

Chakrabarti

Jenisha

2015

Physica A: Statistical Mechanics and its Applications

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We study the evolution of bipartite entangled quasi-Bell states in a strongly coupled qubitoscillator system in the presence of a static bias, and extend it to the ultra-strong coupling regime. Using the adiabatic approximation the reduced density matrix of the qubit is obtained for the strong coupling domain in closed form that involves linear combinations of the Jacobi theta functions. The reduced density matrix of the oscillator yields the phase space Husimi Q-distribution. In the strong coupling regime the Q-function evolves to uniformly separated macroscopically distinct Gaussian peaks representing 'kitten' states at certain specified times that depend on multiple time scales present in the interacting system. For the ultra-strong coupling realm the delocalization in the phase space of the oscillator is studied by using the Wehrl entropy and the complexity of the quantum state. For a small phase space amplitude the entangled quasi-Bell state develops, during its time evolution, squeezing property and nonclassicality of the photon statistics which are measured by the quadrature variance and the Mandel parameter, respectively.

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Squeezed Schrödinger kitten states of a qubit–oscillator system: Generation and quantum properties in the phase space

Balamurugan

Chakrabarti

Jenisha

2017

Physica A: Statistical Mechanics and its Applications

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Generalized spin kitten states in a strongly coupled spin-oscillator system

et al. 2021

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Deconstruction and differentiation of squeezed kitten states in a qubit-oscillator system

Balamurugan¹,

Chakrabarti²,

Jenisha³

2016

Preprint

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We study the evolution of the hybrid entangled squeezed states of the qubit-oscillator system in the strong coupling domain. Following the adiabatic approximation we obtain the reduced density matrices of the qubit and the oscillator degrees of freedom. The oscillator reduced density matrix is utilized to calculate the quasiprobability distributions such as the Sudarshan-Glauber diagonal P -representation, the Wigner W -distribution, and the nonnegative Husimi Q-function. The negativity associated with the W -distribution acts as a measure of the nonclassicality of the state. The existence of the multiple time scales induced by the interaction introduces certain features in the bipartite system. In the strong coupling regime the transient evolution to low entropy configurations reveals brief emergence of nearly pure kitten states that may be regarded as superposition of uniformly separated distinguishable squeezed coherent states. However, the quantum fluctuations with a short time period engender bifurcation and subsequent rejoining of these peaks in the phase space. The abovementioned doubling of the number of peaks increases the entropy to its near maximal value. Nonetheless, these states characterized by high entropy values, are endowed with a large negativity of the W -distribution that points towards their non-Gaussian behavior. This may be ascertained by the significantly large Hilbert-Schmidt distance between the oscillator state and an ensemble of most general statistical mixture of squeezed Gaussian states possessing nearly identical second order quadrature moments as that of the oscillator.

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B. Virgin Jenisha

Quasi-Bell states in a strongly coupled qubit–oscillator system and their delocalization in the phase space

Squeezed Schrödinger kitten states of a qubit–oscillator system: Generation and quantum properties in the phase space

Generalized spin kitten states in a strongly coupled spin-oscillator system

Deconstruction and differentiation of squeezed kitten states in a qubit-oscillator system

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