Soumya Asokan scite author profile

Soumya Asokan

5Publications

1Citation Statement Received

0Citation Statements Given

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328

Affiliations

Indian Institute of Space Science and Technology

Publications

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Estimation of dislocated phases in wavefronts through intensity measurements using a Gerchberg–Saxton type algorithm

2020

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Estimation of the phase of a singular paraxial light field from experimentally measured intensities using a Gerchberg–Saxton type algorithm is demonstrated. A combination of cylindrical lenses which does not conserve the orbital angular momentum of the light field is used in obtaining the measured intensities. Consistent extraction of the phases in regard of the orbital angular momentum is demonstrated both at the input and output transverse planes, using the measured intensities.

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Estimation of dislocated phases and tunable orbital angular momentum using two cylindrical lenses

2023

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A first-order optical system consisting of two cylindrical lenses separated by a distance is considered. It is found to be non-conserving of orbital angular momentum of the incoming paraxial light field. The first-order optical system is effectively demonstrated to estimate phases with dislocations using a Gerchberg–Saxton-type phase retrieval algorithm by making use of measured intensities. Tunable orbital angular momentum in the outgoing light field is experimentally demonstrated using the considered first-order optical system by varying the distance of separation between the two cylindrical lenses.

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Gaussian spatial-polarization entanglement in a folded Mach–Zehnder interferometer

Asokan

Ivan

2020

J. Opt. Soc. Am. A

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Gaussian spatial-polarization entanglement in a coherent vectorial paraxial light field is studied. Detection of spatial-polarization entanglement through fringe movement on rotation of a linear polarizer, with the light field passing through the polarizer, is outlined. The fringe movement is shown to be a sufficient condition for the detection of spatial-polarization entanglement in coherent paraxial vector light fields. Two Gaussian light fields with a small relative tilt but with significant spatial overlap and with orthogonal polarizations are shown to possess close to 1 ebit of spatial-polarization entanglement. Tunable Gaussian spatial-polarization entanglement is experimentally demonstrated in a folded Mach–Zehnder interferometer.

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Detection of polarization-spatial classical optical entanglement in partially coherent light fields using intensity measurements

Asokan¹,

Ivan²

2023

J. Opt. Soc. Am. A

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Detection of polarization-spatial classical optical entanglement through implementation of partial transpose on measured intensities is explored. A sufficient criterion for polarization-spatial entanglement in partially coherent light fields based on intensities measured at various orientations of the polarizer, as implied through partial transpose, is outlined. Detection of polarization-spatial entanglement using the outlined method is demonstrated experimentally through a Mach–Zehnder interferometer setup.

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Polarization-spatial Gaussian entanglement in partially coherent light fields

Asokan

Ivan

2021

J. Opt. Soc. Am. A

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The problem of bipartite entanglement in partially coherent paraxial vector light fields is addressed. A generalized uncertainty principle suited for the polarization-spatial degrees of freedom is introduced. Partial transpose is implemented through the obtained generalized uncertainty principle. Partial transpose is shown to be necessary and sufficient in detecting entanglement for a class of partially coherent vector light fields which have a spatial part to be Gaussian. An experimental realization of the studied entangled states using classical optical interferometry is outlined.

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Soumya Asokan

Estimation of dislocated phases in wavefronts through intensity measurements using a Gerchberg–Saxton type algorithm

Estimation of dislocated phases and tunable orbital angular momentum using two cylindrical lenses

Gaussian spatial-polarization entanglement in a folded Mach–Zehnder interferometer

Detection of polarization-spatial classical optical entanglement in partially coherent light fields using intensity measurements

Polarization-spatial Gaussian entanglement in partially coherent light fields

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