Your search keyword '"Sankar De"' showing total 7 results

1. Angular dependency of the polarization rotation in a coherent atomic medium.

Author

Arpita Das, Bankim Chandra Das, Dipankar Bhattacharyya, and Sankar De

Subjects

ROTATIONAL motion, DOPPLER effect, GROUP velocity, DOPPLER broadening, OPTICAL depth (Astrophysics)

Abstract

The dependency of polarization rotation with electromagnetically induced transparency (PREIT) in 87Rb vapor on the angular mismatch between the probe and the pump beams has been studied experimentally and theoretically for a V-type configuration. We have observed a nonlinear variation of the PREIT angle with the angular mismatch. The angular mismatch enhanced the residual Doppler broadening effect, as well as diminishes the two photon coherence contribution, in the medium. We have also systematically studied the effect of optical depth (OD) and the pump beam spot size variations to understand how the number of interacting atoms affect the two photon coherence contribution of the polarization rotation. The value of group velocity of the probe beam has been calculated from the experimentally observed spectrum. We have modeled a three-level V-type system to explain the experimentally observed phenomena by considering the effect of OD and spot size with angular mismatch in the medium. We have considered two-dimensional Maxwell–Boltzmann distribution to calculate the susceptibilities for all atoms of all velocity components. The characteristic variation of the angle of PREIT with the angular mismatch matches well with the experimentally observed result. [ABSTRACT FROM AUTHOR]

Published

2020

2. Pulse delay and group velocity dispersion measurement in V-type electromagnetically induced transparency of hot atom.

Author

Bankim Chandra Das, Dipankar Bhattacharyya, Arpita Das, Satyajit Saha, Shrabana Chakrabarti, and Sankar De

Subjects

GROUP velocity dispersion, ELECTROMAGNETISM, ATOMS

Abstract

Pulse delay with the group velocity dispersion (GVD) characteristics was studied in the V-type electromagnetically induced transparency in the hyperfine levels of atoms with a closed system configuration. The phase coherency between the pump and the probe laser beams was maintained. We studied the pulse delay and the GVD characteristics with the variation of the pump Rabi frequency taking optical density (OD) as a parameter. We observed a maximum of 268 ns pulse delay for 21.24 MHz pump Rabi frequency at OD 5.04 of the Rb vapor cell. For a better understanding of the experimental results, we have derived an analytical solution for the delay characteristics considering the thermal averaging. The analytical solution was derived for a three level V-type system. The theoretical plots of the delay and the GVD show the same characteristics as we observed in the experiment. This analytical approach can be further generalized for the higher level schemes to calculate different quantities such as susceptibility, group velocity delay or GVD characteristics. [ABSTRACT FROM AUTHOR]

Published

2018

3. Observation and theoretical simulation of dispersive properties of an electromagnetically induced transparent 87Rb atomic medium.

Author

Arpita Das, Bankim Chandra Das, Shrabana Chakrabarti, Dipankar Bhattacharyya, and Sankar De

Abstract

The dispersive properties of 87Rb atomic medium in electromagnetically induced transparency (EIT) have been studied experimentally as well as theoretically. To measure the dispersion signal, a balanced homodyne detection technique was used by forming a Mach–Zehnder interferometer. We studied the system in a Λ-type configuration. From the slope of the dispersive EIT signal, the group index (ng) of the atomic medium, the group velocity () and the time delay () of the light wave through the atomic medium were calculated. We measured the group index of the atomic medium from the dispersion signal and observed that it non-linearly depends on the pump power. This non-linearity signifies that to achieve the maximum reduced group velocity, optimization of the pump power is needed. We got the maximum reduction in the group velocity of the probe beam as m s−1. The corresponding time delay was ns. To support our experimental observation, we have performed a theoretical simulation by taking the semi-classical approach of density matrix formalism of a Λ-type three level system. To get the probe response we solved the optical Bloch equation analytically assuming the Lorentzian velocity distribution of the atom. We have observed that our analytical solution matched exactly with the numerical solution. Our experimental observation of non-linear variation of the group index with the pump Rabi frequency matched quite well with both of our numerical and analytical simulations. [ABSTRACT FROM AUTHOR]

Published

2018

4. Polarization rotation with electromagnetically induced transparency in a V-type configuration of Rb D1 and D2 transitions.

Author

Arpita Das, Bankim Chandra Das, Dipankar Bhattacharyya, Shrabana Chakrabarti, and Sankar De

Subjects

POLARIZATION (Nuclear physics), ELECTROMAGNETIC fields, RUBIDIUM

Abstract

Polarization rotation in electromagnetically induced transparency (PREIT) in rubidium vapour at room temperature has been studied experimentally as well as theoretically in the absence of any magnetic field. PREIT is observed for both 85Rb and 87Rb combining the D1 and the D2 transitions with a V-type configuration. For 85Rb, two EIT peaks and for 87Rb, one EIT peak were observed. Nonlinear characteristics of the variations of the angle of rotation corresponding to the EIT position were observed for both the isotopes of Rb. We have modelled a four level system to explain the occurrence of the double EIT in case of the 85Rb and the occurrence of one EIT peak for 87Rb. The rotation of plane of polarization of the probe beam can be further explained with this model. The characteristic behaviour of the variation of rotation corresponding to the EIT position from theoretical analysis has matched well with the experimental observations. A sharp rotation with a high signal to noise ratio in the vicinity of the EIT can be used as a modulation free and noise insensitive signal for the frequency stabilization. [ABSTRACT FROM AUTHOR]

Published

2018

5. Observation of electromagnetically induced transparency in six-level Rb atoms and theoretical simulation of the observed spectra.

Author

Dipankar Bhattacharyya, Arindam Ghosh, Amitava Bandyopadhyay, Satyajit Saha, and Sankar De

Subjects

RUBIDIUM, SPECTRUM analysis, TRANSPARENCY (Optics), RUBIDIUM isotopes, ELECTROMAGNETISM, DENSITY matrices

Abstract

We report the observation of electromagnetically induced transparency (EIT) in a six-level Λ-type system in atomic Rb vapor containing both 87Rb and 85Rb. The experimental observation includes five velocity selective optically pumped (VSOP) absorption dips for both 87Rb and 85Rb. The EIT signal appears on the background of one such VSOP absorption dips. The measured EIT linewidth () shows sub-natural ( ) values for both lower and higher values of pump Rabi-frequencies. The density matrix based theoretical model for the six-level system is developed and solved numerically by taking into account the Doppler broadening. A complete analytical solution (non perturbative) for a three level Λ-type system has been obtained and compared with the experimentally observed sub-natural EIT linewidth. The simulated spectra are in good agreement with the experimental findings. [ABSTRACT FROM AUTHOR]

Published

2015

6. Do linear molecules always dissociate along their axis? Intra-molecular scattering within Diiodoacetylene.

Author

Sankar De, H Tezuka, P Bhatt, G Vesapidze, C P Safvan, J Matsumoto, and H Shiromaru

Published

2015

7. A nonlinear adaptive controller for a pH neutralization process.

Author

Sankar De, D., Ai-Poh Loh, and Krishnaswamy, P.R.

Published

2000