Jayanta Ganguly scite author profile

Jayanta Ganguly

5Publications

131Citation Statements Received

166Citation Statements Given

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119

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304

158

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Influence of Gaussian white noise on the frequency-dependent first nonlinear polarizability of doped quantum dot

Ganguly¹,

Ghosh

2014

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Articles you may be interested inThird-order nonlinear optical response of CuInS2 quantum dots-Bright probes for near-infrared biodetection Appl. Phys. Lett. 102, 243702 (2013); 10.1063/1.4811786 Frequency-dependent conductance of Kondo quantum dots coupled to ferromagnetic leads J. Appl. Phys. 109, 07C704 (2011); 10.1063/1.3544491Third-order nonlinear optical properties of a one-and two-electron spherical quantum dot with and without a hydrogenic impurity J. Appl. Phys. 106, 063710 (2009); 10.1063/1.3225100Linear and nonlinear optical absorption coefficients and refractive index changes in spherical quantum dots: Effects of impurities, electric field, size, and optical intensityWe investigate the profiles of diagonal components of frequency-dependent first nonlinear (b xxx and b yyy ) optical response of repulsive impurity doped quantum dots. We have assumed a Gaussian function to represent the dopant impurity potential. This study primarily addresses the role of noise on the polarizability components. We have invoked Gaussian white noise consisting of additive and multiplicative characteristics (in Stratonovich sense). The doped system has been subjected to an oscillating electric field of given intensity, and the frequency-dependent first nonlinear polarizabilities are computed. The noise characteristics are manifested in an interesting way in the nonlinear polarizability components. In case of additive noise, the noise strength remains practically ineffective in influencing the optical responses. The situation completely changes with the replacement of additive noise by its multiplicative analog. The replacement enhances the nonlinear optical response dramatically and also causes their maximization at some typical value of noise strength that depends on oscillation frequency. V C 2014 AIP Publishing LLC. [http://dx.

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Influence of Gaussian white noise on the frequency-dependent linear polarizability of doped quantum dot

Ganguly¹,

Ghosh

2014

Chemical Physics

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Exploring static and frequency-dependent third nonlinear polarizability of doped quantum dots driven by Gaussian white noise

Ganguly¹,

Ghosh

2014

Phys. Status Solidi B

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We investigate the profiles of diagonal components of static and frequency‐dependent third nonlinear (γxxxx, γyyyy) polarizability of repulsive impurity doped quantum dots driven by noise. The dopant impurity potential is represented by a Gaussian function. We have invoked Gaussian white noise applied additively and multiplicatively (in Stratonovich sense). In order to determine the polarizability components, the doped system is subject to an external electric field of given intensity, which may be static or time‐dependent. The dopant location and the noise characteristics delicately tailor the polarizability components and produce good number of interesting outcomes. Quiet significantly, we have found ineffectiveness of the noise strength in influencing the polarizability components when the noise is applied additively. However, the multiplicative noise behaves otherwise and gives rise to additional interesting features in the polarizability profiles. The multiplicative noise even causes noticeable enhancement in the magnitude of the polarizability components. The present enquiry gains importance in view of the fact that noise seriously affects the optical properties of doped quantum dot devices. The findings could be relevant within the purview of noise driven optical properties of doped quantum dot systems.

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Excitation kinetics of impurity doped quantum dot driven by Gaussian white noise: Interplay with external field

Pal¹,

Sinha

Ganguly³

et al. 2013

Chemical Physics

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Interplay between noise and position-dependent dielectric screening function in modulating nonlinear optical properties of impurity doped quantum dots

Bera

Ganguly²,

Saha

et al. 2016

Optik

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Jayanta Ganguly

Influence of Gaussian white noise on the frequency-dependent first nonlinear polarizability of doped quantum dot

Influence of Gaussian white noise on the frequency-dependent linear polarizability of doped quantum dot

Exploring static and frequency-dependent third nonlinear polarizability of doped quantum dots driven by Gaussian white noise

Excitation kinetics of impurity doped quantum dot driven by Gaussian white noise: Interplay with external field

Interplay between noise and position-dependent dielectric screening function in modulating nonlinear optical properties of impurity doped quantum dots

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