Gagan Rajput scite author profile

Gagan Rajput

5Publications

29Citation Statements Received

43Citation Statements Given

How they've been cited

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135

Affiliations

Government of Himachal Pradesh, Himachal Pradesh University

Publications

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Colossal enhancement in thermoelectric efficiency of weakly coupled double quantum dot system

Rajput

Sharma

2011

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Articles you may be interested inThe effect of Coulomb interactions on thermoelectric properties of quantum dots Thermal spin current through a double quantum dot molecular junction in the Coulomb blockade regime Steady state conductance in a double quantum dot array: The nonequilibrium equation-of-motion Green function approach Influence of electron-phonon interaction on the thermoelectric properties of a serially coupled double quantum dot system

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Zero bias maximum of differential conductance in coupled quantum dots: The effect of interdot Coulomb interaction

Rajput¹,

Chand²,

Ahluwalia³

et al. 2010

Physica B: Condensed Matter

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Thermoelectric properties of correlated double quantum dot system in Coulomb blockade regime

Rajput

Ahluwalia

Sharma

2011

Physica B: Condensed Matter

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Partial swapping of Fano resonance and bound states in continuum in a correlated double-quantum-dot system

Rajput¹,

Ahluwalia²,

Sharma³

2011

EPL

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We study the partial swapping of the Fano resonance in a correlated double-quantumdot (DQD) system connected to normal leads by employing the Keldysh non-equilibrium Green function technique in a Coulomb blockade regime. Two types of asymmetries have been considered which occurs when the DQD system undergoes transition from symmetric parallel to i) series and ii) T-shape geometries. It is found that both types of asymmetries exhibit swapping on varying the interdot Coulomb interaction (U12), however, mostly in the first one or first two pairs (out of four pairs) of Fano and Breit-Wigner peaks. Further, for particular values of U12 and dot-lead couplings, one, two or three Fano peaks collapse forming bound states in the continuum (BIC). This partial (non-magnetic) swapping and the formation of BIC is found to result from an interplay of correlation effects and asymmetries in dot-lead couplings.

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Tunable Josephson effect in hybrid parallel coupled double quantum dot-superconductor tunnel junction

Rajput

Kumar

Ajay

2014

Superlattices and Microstructures

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Gagan Rajput

Colossal enhancement in thermoelectric efficiency of weakly coupled double quantum dot system

Zero bias maximum of differential conductance in coupled quantum dots: The effect of interdot Coulomb interaction

Thermoelectric properties of correlated double quantum dot system in Coulomb blockade regime

Partial swapping of Fano resonance and bound states in continuum in a correlated double-quantum-dot system

Tunable Josephson effect in hybrid parallel coupled double quantum dot-superconductor tunnel junction

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