Publications

2004

  1. ”A linear variational route to the polarizability of 2-D artificial atoms: effects of anharmonicity in the confinement potential” –Manas Ghosh, Ram Kuntal Hazra and S. P. Bhattacharyya; Chemical Physics Letters 388 (2004) 337.
  2. ”Non-linear optical response of single carrier 2-D anharmonic Quantum dots”-Manas Ghosh, Ram Kuntal Hazra and S. P. Bhattacharyya; Chemical Physics Letters 397 (2004) 258.

2005

  1. ”Maximizing second hyperpolarizability of single carrier 2D quantum dots: Interplay of strengths of confining potential, magnetic field and anharmonicity”-Manas Ghosh, Ram Kuntal Hazra and S. P. Bhattacharyya; Chemical Physics Letters 405 (2005) 410.

2006

  1. ”Response of Energy Levels and Wave functions of 2-D Artificial Atoms to Changes in Parameters in the Hamiltonian”-Manas Ghosh, Ram Kuntal Hazra and S. P. Bhattacharyya; Journal of Theoretical and Computational Chemistry 5 (2006) 25.

2007 

  1. ”Linear and Non-linear optical response properties of singlet 2-electron quantum dots”-Manas Ghosh, Ram Kuntal Hazra and S. P. Bhattacharyya; Chemical Physics Letters 434 (2007) 56.
  2. ”Response properties of 2-electron 2-D Quantum Dots: Triplet versus Singlet”-Manas Ghosh, Ram Kuntal Hazra and S. P. Bhattacharyya; Computing Letters 3 (2007) 183, (Prof. A. D. Buckingham special issue).
  3. ”Target Excitation in 2-D Quantum Dots by Optimized Chirped Pulses”-Manas Ghosh, Rahul Sharma and S. P. Bhattacharyya; Chemical Physics Letters 449 (2007) 165.
  4. ”Linear and Non-linear response of 2-D single carrier dots: Role of impurity perturbations”- Ram Kuntal Hazra, Manas Ghosh and S. P. Bhattacharyya; Chemical Physics 333 (2007) 18.

2008 

  1. “Response dynamics of 2-D Quantum Dots in the presence of time-varying Fields: Anharmonicity and Pulse shape effects”-Manas Ghosh, Ram Kuntal Hazra and S. P. Bhattacharyya; Chemical Physics 345 (2008) 103.
  2. “Size-Dependent Linear and Non-linear optical Response of Single Carrier 2-Dimensional Quantum Dots”-Manas Ghosh and S. P. Bhattacharyya; Journal of. Physics and Chemistry of Solids 69 (2008) 981
  3. “Quantum Adiabatic Switching Route to the Impurity Modulated States of 2-D Quantum Dots with Different Switching Functions”- Ram Kuntal Hazra, Manas Ghosh and S.P. Bhattacharyya; International Journal of Quantum Chemistry 108 (2008) 719.
  4. “Modulation of the Electronic States of 2-D Single Carrier Quantum Dots due to Presence of Hole Doped Impurity Perturbations”- Ram Kuntal Hazra, Manas Ghosh and S. P. Bhattacharyya; Chemical Physics 344 (2008) 61.
  5. “Information entropy and level spacing distribution based signatures of quantum chaos in electron doped 2D single carrier quantum dots”- Ram Kuntal Hazra, Manas Ghosh and S. P. Bhattacharyya; Chemical Physics Letters 460 (2008) 209.
  6. “Frequency Dependent Linear and Non-linear Response Properties of Single Carrier Quantum Dots: Role of Effective Mass and Anharmonicity in the Confinement Potential”- Parikshit Mandal and Manas Ghosh; Physica B 403 (2008) 2967.
  7. “Influence of Effective Mass in Modulating Size-dependent Linear and Non-linear Polarization of Single Carrier 2-Dimensional Anharmonic Quantum Dots”-Parikshit Mandal and Manas Ghosh; Physica E 41 (2008) 110.
  8. “Modulation of Energy Levels, Wave Functions and Dynamics of 2-D One Electron Quantum Dots: Influence of Size”-Parikshit Mandal and Manas Ghosh; Chemical Physics 353 (2008) 37.
  9. “Role of Effective Mass in Modulating Linear and Non-linear Response Properties of Single Carrier Quantum Dots: Interplay with System Parameters”- Manas Ghosh, Parikshit Mandal and S. P. Bhattacharyya; Journal of Physics and Chemistry of Solids 69 (2008) 2864.

2009

  1. “Metastable Impurity Perturbed States of 2-D Single Carrier Quantum Dots”- Ram Kuntal Hazra, Manas Ghosh and S. P. Bhattacharyya; Chemical Physics Letters 468 (2009) 216.
  2. “Dynamics of 2-D One Electron Quantum Dots in Pulsed Field: Influence of Size”- Parikshit Mandal and Manas Ghosh; Journal of Physics and Chemistry of Solids 70 (2009) 680.
  3. “Dynamics of 2-D One Electron Quantum Dots in Periodically Fluctuating Confinement Potential: Influence of Size and Anharmonicity”-Parikshit Mandal and Manas Ghosh; Journal of Luminescence 129 (2009) 1249.
  4. “Dynamics of 2-D One Electron Quantum Dots in Time-dependent Magnetic Field: Influence of Size”-Parikshit Mandal and Manas Ghosh; Physica B. 404 (2009) 3830.

2010

  1. “Frequency Dependent Linear and Non-linear Response Properties of Electron Impurity Doped Quantum Dots: Influence of Impurity Location”- Kanchan Sarkar, Nirmal Kr Datta and Manas Ghosh; Physica E 42 (2010) 1659.
  2. “Tunneling in 2-D Quantum Dots via Quantum Adiabatic Switching Route”- Manas Ghosh, Subhasree Ghosh and S. P. Bhattacharyya; Journal of Physics and Chemistry of Solids 71 (2010) 745.
  3. “Oscillatory Impurity Potential Induced Dynamics of Doped Quantum Dots: Analysis based on Coupled Influence of Impurity Coordinate and Impurity Influenced Domain”-Nirmal Kr Datta and Manas Ghosh; Chemical Physics 372 (2010) 82.
  4. “2-d Quantum Dots in Polychromatic Radiation Fields: Effects of Frequency Mixing, Phase and Anharmonicity on the Freezing of Dynamics”- Subhasree Ghosh, Parikshit Mandal and Manas Ghosh; Journal of Theoretical and Computational Chemistry 9 (2010) 293.
  5. “Repulsive Impurity Doped Quantum Dot Subjected to Oscillatory Confinement Potential: Role of Dopant Strength and Dopant Location on Time-Evolution”-Nirmal Kr Datta and Manas Ghosh; Solid State Science 12 (2010) 1620.
  6. “Role of Impurity Strength and Impurity Domain on Excitation of Doped Quantum Dot Induced by Discontinuously Reversing Pulsed Field”-Nirmal Kr Datta, Subhasree Ghosh and Manas Ghosh; Journal of Applied Physics 108 (2010) 104305.
  7. “Dynamics of Electron Impurity Doped Quantum Dots in the presence of Time-Varying Fields: Influence of Impurity Location”-Kanchan Sarkar, Nirmal Kr Datta and Manas Ghosh; Physica E 43 (2010) 345.
  8. “Excitations in Doped Quantum Dot Driven by Discontinuously and Randomly Reversing Electric Field: Influence of Impurity”-Nirmal Kr Datta, Subhasree Ghosh and Manas Ghosh; Chemical Physics 378 (2010) 66.

 2011 

  1. “Impurity Modulated Excitation Profile of Doped Quantum Dot Subject to Oscillatory Magnetic Field”-Nirmal Kr Datta and Manas Ghosh; Materials Chemistry and Physics 126 (2011) 693.
  2. “Role of Impurity Influenced Domain on Excitation Profile of Doped Quantum Dot Subject to Oscillatory Confinement Potential”-Nirmal Kr Datta and Manas Ghosh; Journal of Luminescence 131 (2011) 795.
  3. “Excitations in doped quantum dot induced by randomly fluctuating magnetic field: influence of impurity”-                   Nirmal Kr Datta and Manas Ghosh; European Physical Journal B 80 (2011) 95.
  4. “Excitations in doped quantum dot driven by periodically fluctuating impurity domain”- Kashinath Chatterjee, Nirmal Kumar Datta and Manas Ghosh; Journal of Applied Physics 109 (2011) 104310.
  5. “Excitations in doped quantum dot insisted by time-dependent sluggish enhancement in dot-impurity overlap”-Nirmal Kr Datta and Manas Ghosh; Chemical Physics Letters 509 (2011) 37.
  6. “Interplay between size and impurity position of doped quantum dot”-Kanchan Sarkar, Nirmal Kr Datta and Manas Ghosh; Superlattices and Microstructures. 50 (2011) 69.
  7. “Excitations in Doped Quantum Dot Induced by Randomly Fluctuating Confinement Potential: Influence of Impurity”-Nirmal Kr Datta and Manas Ghosh; Current Applied Physics 11 (2011) 1222.
  8. “Impurity strength and impurity domain modulated frequency-dependent linear and second non-linear response properties of doped quantum dots”-Nirmal Kr Datta and Manas Ghosh; Physica Status Solidi B 248 (2011) 1941.
  9. “Excitations in doped quantum dot driven by linear and non-linear drift of impurity”- Nirmal Kr Datta and Manas Ghosh; Solid State Science 13 (2011) 1531.
  10. “Excitations in doped quantum dot induced by accelerating impurity center”-Nirmal Kr Datta and Manas Ghosh; Journal of Applied Physics 110 (2011) 054314.
  11. “Impurity controlled excitations in doped quantum dot exposed to periodic external perturbation”- Nirmal Kr Datta, Debashis Konar and Manas Ghosh; Microelectronic Engineering. 88 (2011) 3306.

2012

  1. “Excitations in doped quantum dot insisted by discontinuous reversals of static electric field: interplay between pulse and dopant site”- Nirmal Kr Datta, Subhasree Ghosh and Manas Ghosh; Superlattices and Microstructures. 51 (2012) 163.
  2. “The randomly fluctuating impurity strength initiated excitation in doped quantum dots”-Nirmal Kr Datta and Manas Ghosh; Superlattices and Microstructures. 51 (2012) 690.
  3. “Influence of relative confinement oscillation and concomitant oscillatory impurity domain on excitation profile of doped quantum dots”-Nirmal Kr Datta, Suvajit Pal and Manas Ghosh; Chemical Physics 400 (2012) 44.
  4. “Impurity modulated static linear and first non-linear polarizabilities of doped quantum dots”-Nirmal Kr Datta and Manas Ghosh; ISRN Optics. Vol. 2012, Article ID 847532, 8 pages. (Invited Article).
  5. “Influence of impurity propagation and concomitant enhancement of impurity spread on excitation profile of doped quantum dots”-Nirmal Kr Datta, Suvajit Pal and Manas Ghosh; Journal of Applied Physics 112 (2012) 014324.
  6. “Rabi type oscillations in damped single electron 2d-quantum dots”- Madhury Mukhopadhyay, Ram Kuntal Hazra, Manas Ghosh, Samaresh Mukherjee and S. P. Bhat tacharyya; Central European Journal of Physics 10 (2012) 983, (Invited Article).
  7. “Impurity controlled excitations in doped quantum dot induced by rectified sinusoidal field”-Suvajit Pal, Nirmal Kr Datta and Manas Ghosh; Micro and Nanosystems 4 (2012) 314. (Invited Article).
  8. “Influence of Gaussian and Saw-tooth pulses in modulating excitation kinetics of impurity doped quantum dots”-Suvajit Pal and Manas Ghosh; CCAAS CheM Journal 2 (2012) 52 (Invited Article).
  9. ”Influence of periodically propagating impurity and accompanying time-variation of impurity spread on excitation profile of doped quantum dots”-Suvajit Pal and Manas Ghosh; Journal of Theoretical and Applied  Physics  (2012), 6:42 (Invited Article).

2013

  1. “Influence of pulse shape in modulating excitation kinetics of impurity doped quantum dots”, Suvajit Pal and Manas Ghosh*; Superlattices and Microstructures. 55 (2013) 118.
  2. ”Influence of oscillatory impurity potential and concurrent gasping of impurity spread on excitation profile of doped quantum dots”, Suvajit Pal and Manas Ghosh*; Journal of Materials.  (2013) Article ID 795450, 7 pages, (Invited Article).
  3. ”Influence of external field and consequent impurity breathing on excitation profile of doped quantum dots”, Suvajit Pal and Manas Ghosh*; Journal of Luminescence 138 (2013) 48.
  4. Excitation kinetics of impurity doped quantum dot triggered by Gaussian white noise”, Suvajit Pal, Sudarson Sekhar Sinha, Jayanta Ganguly and Manas Ghosh*; ISRN Condensed Matter Physics. Vol. 2013, Article ID 798153, 6 pages, (Invited Article).
  5. ”Excitation kinetics of quantum dot induced by damped propagation of dopant: Role of confinement potential and magnetic field”, Suvajit Pal and Manas Ghosh*; Chemical Physics 423 (2013) 15.
  6. Influence of Damped Propagation of Dopant on the Excitation Kinetics of Doped Quantum Dots”-Suvajit Pal, Nirmal Kr Datta and Manas Ghosh*; Journal of Physical Chemistry C 117 (2013) 14435-14440.
  7. ”Modulation of excitation kinetics of impurity doped quantum dots by the interplay between confinement sources and multiplicative Gaussian white noise”, Jayanta Ganguly, Suvajit Pal and Manas Ghosh*; Superlattices and Microstructures. 63 (2013) 110-120.
  8. ”Additive Gaussian white noise modulated excitation kinetics of impurity doped quantum dots: Role of confinement sources”, Jayanta Ganguly, Suvajit Pal and Manas Ghosh*; Superlattices and Microstructures. 63 (2013) 215-227.
  9. ”Excitation kinetics of impurity doped quantum dot driven by Gaussian white noise: Interplay with external field”, Suvajit Pal, Sudarson Sekhar Sinha, and Jayanta Ganguly and Manas Ghosh*; Chemical Physics 426 (2013) 54-58.
  10. ”Coupled influence of damped propagation of dopant and oscillatory confinement sources on excitation kinetics of doped quantum dot”, Suvajit Pal and Manas Ghosh*; European Physical Journal B 86 (2013) 498 (7 pages).

2014

  1. ”Coupled influence of damped propagation of dopant and external oscillatory field on excitation kinetics of doped quantum dot”, Suvajit Pal and Manas Ghosh*; Physica Status Solidi B 251 (2014) 462-468.
  2. ”Influence of noise shape on excitation kinetics of impurity doped quantum dots”-Suvajit Pal, Sudarson Sekhar Sinha, Jayanta Ganguly and Manas Ghosh, Manufacturing Review 1 (2014) 1- 8 (Invited Article).
  3. ”Influence of Gaussian white noise on the frequency-dependent first nonlinear polarizability of  doped quantum dot”-Jayanta Ganguly and Manas Ghosh, Journal of Applied Physics 115 (2014) 174313 (10 pages).
  4. ”Influence of Gaussian white noise on the frequency-dependent linear polarizability of doped quantum dot”-Jayanta Ganguly and Manas Ghosh, Chemical Physics 438 (2014) 75-82.
  5. “Coupled influence of noise and damped propagation of impurity on excitation kinetics of doped quantum dots”- Jayanta Ganguly, Suvajit Pal and Manas Ghosh, Journal of Advanced Physics 3 (2014) 1-11.
  6. Influence of damping on the frequency-dependent polarizabilities of doped quantum dot”-Suvajit Pal and Manas Ghosh, Superlattices and Microstructures 73 (2014) 239-255.
  7. ”Influence of damped propagation of dopant on the static and frequency-dependent third nonlinear polarizability of quantum dot”-Suvajit Pal and Manas Ghosh, Chemical Physics Letters 608 (2014) 284-288.
  8. Nucleation of charged droplets; an ion-atmosphere model”- Manas Ghosh, RSC Advance, 4 (2014) 45275-45285.
  9. Influence of damped propagation of dopant on the off-diagonal components of static linear and non-linear polarizabilities of quantum dots”- Suvajit Pal, Surajit Saha and Manas Ghosh, Journal of Modern Physics and Applications, 2014, 2014:8 (Invited Article).
  10. “Modulation of off-diagonal components of static linear and nonlinear polarizabilities of doped quantum dots by coupled influence of noise and damped propagation of impurity”-Jayanta Ganguly, Surajit Saha, and Manas Ghosh; Science Postprint, 1(1): e00036. (2014), (Invited Article).

2015 

  1. Blending damped drift of impurity with noise: Impact on off-diagonal components of frequency-dependent linear and nonlinear polarizabilities of quantum dots”- Jayanta Ganguly, Surajit Saha, and Manas Ghosh; Chemical Physics Letters, 619 (2015) 49-53.
  2. “Coupled influence of noise and damped propagation of impurity on linear and nonlinear polarizabilities of doped quantum dots” -Jayanta Ganguly and Manas Ghosh, Chemical Physics, 447 (2015) 54-59.
  3. “Exploring static and frequency-dependent third nonlinear polarizability of doped quantum dots driven by Gaussian white noise”- Jayanta Ganguly and Manas Ghosh, Physica Status Solidi B, 252 (2015) 289-297.
  4. Influence of damped propagation of dopant on the static linear and nonlinear polarizabilities of quantum dot Suvajit Pal and Manas Ghosh, Review of Applied Physics, Volume 4, Issue 1, May 2015), (Invited Article).
  5. Exploring off-diagonal frequency-dependent linear and nonlinear polarizabilities of quantum dot induced by damped drift of impuritySuvajit Pal, Surajit Saha and Manas Ghosh, Science Postprint, 1(2): e00043 (2015), (Invited Article).
  6. “Profiles of off-diagonal components of static linear and nonlinear polarizabilities of doped quantum dots driven by Gaussian white noise “- Surajit Saha, Jayanta Ganguly and Manas Ghosh, Open Optics Journal, 9 (2015) 7-13, (Invited Article).
  7. “Tuning diagonal components of static linear and first nonlinear polarizabilities of doped quantum dots by Gaussian white noise Jayanta Ganguly and Manas Ghosh, Journal of Physics and Chemistry of Solids, 82 (2015) 76-81.
  8. “Polarizabilities of impurity doped quantum dots under pulsed field: Role of additive white noise”- Surajit Saha and Manas Ghosh, Open Journal of Microphysics, 05 (2015) 01-10, (Invited Article).
  9. “Polarizabilities of impurity doped quantum dots under pulsed field”-Surajit Saha and Manas Ghosh, Science Postprint, 1(2): e00043 (2015), (Invited article).
  10. “Fabricating off-diagonal components of frequency-dependent linear and nonlinear polarizabilities of doped quantum dots by Gaussian white noise”-Surajit Saha, Jayanta Ganguly and Manas Ghosh, Physica B, 468-469 (2015) 25-33.
  11. “Oscillator strength of impurity doped quantum dots: Influence of Gaussian white noise”-Suvajit Pal, Jayanta Ganguly, Surajit Saha and Manas Ghosh, Physica B, 474 (2015) 41-46.
  12. Analyzing optical absorption coefficients of impurity doped quantum dots in presence of noise with special emphasis on electric field, magnetic field and confinement potential”- Arkajit Mandal, Sucharita Sarkar, Arghya Pratim Ghosh and Manas Ghosh, Chemical Physics, 463 (2015) 149158.
  13. Exploring optical refractive index change of impurity doped quantum dots driven by white noise”- Surajit Saha, Suvajit Pal, Jayanta Ganguly and Manas Ghosh, Superlattices and Microstructures, 88 (2015) 620633.
  14. “Influence of position-dependent effective mass on optical refractive index change of impurity doped Quantum dots in presence of Gaussian white noise”- Suvajit Pal, Jayanta Ganguly, Surajit Saha and Manas Ghosh, Science Postprint, 1(2): e00055. doi:10.14340/spp.2015.12A0002.

 2016

  1. “Noise-driven optical absorption coefficients of impurity doped quantum dots”-Jayanta Ganguly, Surajit Saha, Suvajit Pal and Manas Ghosh, Physica E, 75 (2016) 246-256.
  2. “Exploring electro-optic effect of impurity doped quantum dots in presence of Gaussian white noise”- Suvajit Pal, Jayanta Ganguly, Surajit Saha and Manas Ghosh, Journal of Physics and Chemistry of Solids, 88 (2016) 8595.
  3. Fabricating third-order nonlinear optical susceptibility of impurity doped quantum dots in presence of Gaussian white noise” – Jayanta Ganguly, Surajit Saha, Suvajit Pal and Manas Ghosh, Optics Communications, 363 (2016) 4756.
  4. Tuning third harmonic generation of impurity doped quantum dots in presence of Gaussian white noise”-Surajit Saha and Manas Ghosh, Journal of Physics and Chemistry of Solids, 90 (2016) 6979.
  5. Modulating nonlinear optical properties of impurity doped Quantum dots via the interplay between anisotropy and Gaussian white noise”- Sucharita Sarkar, Arghya Pratim Ghosh, Arkajit Mandal and Manas Ghosh, Superlattices and Microstructures, 90 (2016) 297307.
  6. “Polarizabilities of impurity doped quantum dots under pulsed field: Role of multiplicative white noise”- Surajit Saha and Manas Ghosh, Brazilian Journal of Physics, 46 (2016) 4149.
  7. Influence of position-dependent effective mass on third-order nonlinear optical susceptibility of impurity doped Quantum dots in presence of Gaussian white noise”- Surajit Saha, Suvajit Pal, Jayanta Ganguly and Manas Ghosh, Physica B, 484 (2016) 109113.
  8. Influence of position-dependent effective mass on the nonlinear optical properties of impurity doped Quantum dots in presence of Gaussian white noise”- Arghya Pratim Ghosh, Arkajit Mandal, Sucharita Sarkar and Manas Ghosh, Optics Communications, 367 (2016) 325334.
  9. Influence of anisotropy on the optical refractive index change of impurity doped Quantum dots in presence of Gaussian white noise”- Jayanta Ganguly, Surajit Saha, Suvajit Pal and Manas Ghosh, Current Nanomaterials, 1 (2016) 69-74.
  10.  “Noise-driven diamagnetic susceptibility of impurity doped quantum dots: Role of anisotropy, position-dependent effective mass and position-dependent dielectric screening function”-Aindrila Bera, Surajit Saha, Jayanta Ganguly and Manas Ghosh, Chemical Physics 474 (2016) 36-43.
  11. “Interplay between noise and position-dependent dielectric screening function in modulating nonlinear optical properties of impurity doped quantum dots”- Aindrila Bera, Jayanta Ganguly, Surajit Saha, and Manas Ghosh, Optik 127 (2016) 6771-6778.
  12. Modulating optical second harmonic generation of impurity doped quantum dots in presence of Gaussian white noise”- Jayanta Ganguly and Manas Ghosh, Physica Status Solidi B, 253 (2016) 1093-1103.
  13. Influence of anisotropy and position-dependent effective mass on electro-optic effect of impurity doped quantum dots in presence of Gaussian white noise”- Surajit Saha, Jayanta Ganguly, Suvajit Pal and Manas Ghosh, Chemical Physics Letters, 658 (2016) 254-258.
  14. Tailoring nonlinear optical rectification coefficient of impurity doped quantum dots by invoking Gaussian white noise”-Suvajit Pal and Manas Ghosh, Optical and Quantum Electronics, 48 (2016) 372 (18 pages).
  15. Exploring diamagnetic susceptibility of impurity doped quantum dots in presence of Gaussian white noise”- Aindrila Bera, Surajit Saha, Jayanta Ganguly and Manas Ghosh, Journal of Physics and Chemistry of Solids, 98 (2016) 190-197.
  16. “Combined influence of hydrostatic pressure and temperature on interband emission energy of impurity doped quantum dots in presence of noise”- Aindrila Bera and Manas Ghosh, Physica B, 500 (2016) 24-31.
  17. Modulating optical rectification, second and third harmonic generation of doped quantum dots: Interplay between hydrostatic pressure, temperature and noise”- Jayanta Ganguly, Surajit Saha, Aindrila Bera and Manas Ghosh, Superlattices and Microstructures, 98 (2016) 385-399.
  18. “Influence of position-dependent effective mass, position-dependent dielectric screening function and anisotropy on the binding energy and interband emission energy of impurity doped quantum dots in presence of Gaussian white noise”-Anuja Ghosh, Aindrila Bera and Manas Ghosh, Biointerface Research in Applied Chemistry, 6 (2016) 1573-1579.
  19. “Simultaneous influence of hydrostatic pressure and temperature on diamagnetic susceptibility of impurity doped quantum dots under the aegis of noise“-Surajit Saha, Jayanta Ganguly, Aindrila Bera and Manas Ghosh, Chemical Physics, 480 (2016) 17-22.
  20. Noise-modulated effects of anisotropy and position-dependent effective mass on the oscillator strength of impurity doped quantum dots”- Sucharita Sarkar, Arghya Pratim Ghosh, Arkajit Mandal and Manas Ghosh; Journal of Advances in Nanomaterials, 1 (2016) 64-72.

2017

  1. “Exploring Optical Dielectric Function of Impurity Doped Quantum Dots in Presence of Gaussian White Noise”- Surajit Saha, Suvajit Pal, Jayanta Ganguly and Manas Ghosh, Journal of Advanced Physics, 6 (2017) 48-55.
  2. “Influence of Hermanson’s dielectric screening function on the nonlinear optical Properties of impurity doped quantum dots in presence of Gaussian white noise”-Aindrila Bera, Surajit Saha, Jayanta Ganguly and Manas Ghosh; Journal of Advanced Physics, 6 (2017) 87-95.
  3. Exploring electro-optic effect and third-order nonlinear optical susceptibility of impurity doped quantum dots: Interplay between hydrostatic pressure, temperature and noise”- Jayanta Ganguly, Surajit Saha, Aindrila Bera and Manas Ghosh; Optics Communications, 387 (2017) 166-173.
  4. Exploring optical dielectric function of impurity doped quantum dots under combined influence of hydrostatic pressure and temperature and in presence of noise”- Aindrila Bera and Manas Ghosh; Chemical Physics Letters, 667 (2017) 103-107.
  5. Simultaneous influence of hydrostatic pressure and temperature on binding energy of impurity doped quantum dots in presence of noise”- Aindrila Bera and Manas Ghosh; Journal of Alloys and Compounds, 695 (2017) 3054-3060.
  6. “Optical dielectric function of impurity doped Quantum dots in presence of noise Anuja Ghosh, Aindrila Bera and Manas Ghosh; Advances in Nano Research, 4 (2017) 13-25.
  7. Role of anisotropy, spatially-varying effective mass and dielectric constant on the self-polarization effect of doped quantum dots in presence of noise”- Anuja Ghosh and Manas Ghosh; Superlattices and Microstructures, 104 (2017) 438-444.
  8. Influence of noise on the self-polarization effect of impurity doped quantum dots”- Anuja Ghosh and Manas Ghosh; Advanced Nano-Bio-Materials & Devices, 1 (2017) 1-13.
  9. Dipole moment and polarizability of impurity doped quantum dots driven by noise: Influence of hydrostatic pressure and temperature– Aindrila Bera and Manas Ghosh; Physica B, 515 (2017) 18-22.
  10. Influence of binding energy on dipole moment, polarizability and self-polarization effect of impurity doped quantum dots: Role of noise”- Anuja Ghosh, Aindrila Bera and Manas Ghosh; Chemical Physics Letters, 678 (2017) 119-122.
  11. Nonlinear optical properties of doped quantum dots: Interplay between noise and carrier density”- Aindrila Bera, Anuja Ghosh and Manas Ghosh; Optical Materials, 69 (2017) 352-357.
  12. Noise-modulated self-polarization effect of impurity doped quantum dots under simultaneous presence of hydrostatic pressure and temperature” – Aindrila Bera and Manas Ghosh; Journal of Physics and Chemistry of Solids, 109 (2017) 26-30.
  13. Role of carrier density on the nonlinear optical properties of doped quantum dots under the supervision of noise”- Anuja Ghosh, Aindrila Bera and Manas Ghosh; Optik, 142 (2017) 590-597.
  14. Modulating binding energy and interband emission energy of impurity doped Quantum dots in presence of Gaussian white noise”- Anuja Ghosh, Aindrila Bera and Manas Ghosh; Current Smart Materials, 2 (1) (2017) 56-64.
  15. Noise-induced total optical absorption coefficient and refractive index change of impurity doped quantum dots under simultaneous influence of hydrostatic pressure and temperature”- Aindrila Bera and Manas Ghosh; Current Physical Chemistry, 7 (3) (2017) 243-253.

 2018

  1. Dipole moment and polarizability of impurity doped quantum dots under anisotropy, spatially varying effective mass and dielectric screening function: Interplay with noise”-Anuja Ghosh and Manas Ghosh; Journal of Physics and Chemistry of Solids, 112 (2018) 252-257.
  2. Stark shift of impurity doped quantum dots: Role of noise”-Sk. Md. Arif, Aindrila Bera, Anuja Ghosh and Manas Ghosh; Chemical Physics, 501 (2018) 101-109.
  3. Exploring DC-Kerr effect of impurity doped quantum dots under the aegis of noise Sk. Md. Arif, Aindrila Bera, Anuja Ghosh and Manas Ghosh; Optical Materials, 76 (2018) 237-252.
  4. “Exploration of dynamic dipole polarizability of impurity doped quantum dots in presence of noise”- Anuja Ghosh, Aindrila Bera, Surajit Saha, Sk. Md. Arif and Manas Ghosh; Superlattices and Microstructures, 114 (2018) 259-273.
  5. Modulation of static dipole polarizability of impurity doped quantum dots in presence of noiseAindrila Bera, Anuja Ghosh, Surajit Saha, Sk. Md. Arif and Manas Ghosh; Journal of Alloys and Compounds, 742 (2018) 142-150.
  6. Dipole moment and polarizability of impurity doped quantum dots: Role of noise”- Anuja Ghosh and Manas Ghosh; Recent Advances in Communications and Networking Technology, (in press, 2018).
  7. “Modulating electro-absorption coefficient of impurity doped quantum dots driven by noise”- Sk. Md. Arif, Anuja Ghosh, Aindrila Bera and Manas Ghosh; Photonics and Nanostructures-Fundamentals and Applications 31 (2018) 08-21.
  8. “Analyzing the correction factor relevant to Kerr nonlinearity in impurity doped quantum dots for a passage from non-absorbing to absorbing media: Role of noise”- Sk. Md. Arif, Anuja Ghosh, Aindrila Bera and Manas Ghosh; Journal of Physics and Chemistry of Solids, 121 (2018) 54–61.

2019

  1. “Tuning diamagnetic susceptibility of impurity doped quantum dots by noise-binding energy interplay” – Sk.  Md. Arif, Aindrila Bera, Manas Ghosh; Heliyon, 5 (2019) e01147.
  2. “Exploring the nonlinear optical properties of impurity doped quantum dots in the light of noise-binding energy interplay” – Sk. Md. Arif, Aindrila Bera, Manas Ghosh; Results in Physics, 13 (2019) 102139.
  3. “Analyzing magnetic susceptibility of impurity doped quantum dots in presence of noise”- Aindrila Bera, Anuja Ghosh and Manas Ghosh; Journal of Magnetism and Magnetic Materials, 484 (2019) 391-402.
  4. “Influence of noise-binding energy interplay on DC-Kerr effect and electro-absorption coeffcient of impurity doped quantum dots”- Anuja Ghosh, Sk. Md. Arif and Manas Ghosh; Heliyon, 5 (2019) e01832.
  5. “Influence of noise-binding energy interplay on the second and third-order nonlinear optical properties of impurity doped quantum dots”- Anuja Ghosh, Sk. Md. Arif and Manas Ghosh; Heliyon, 5 (2019) e01785.
  6. “Impurity related optical properties in tuned quantum dot/ring systems”- Suvajit Pal, Manas Ghosh and Carlos Alberto Duque; Philosophical Magazine, 99 (2019) 2457-2486.
  7. “Role of noise-binding energy interplay on Stark shift and dipole polarizabilities of impurity doped quantum dots”-Aindrila Bera, Anuja Ghosh and Manas Ghosh; Journal of Optoelectronics and Advanced Materials, 21 (2019) 499-504.

2020

  1. “Magnetic susceptibility of doped quantum dots: Interplay between binding energy and noise”- Anuja Ghosh, Sk. Md. Arif and Manas Ghosh; Biointerface Research in Applied Chemistry, 10 (2020) 5376-5381.
  2. “Analyzing role of relaxation time on second harmonic generation and optical dielectric function of impurity doped quantum dots under the aegis of noise”- Sk. Md. Arif, Aindrila Bera, Anuja Ghosh and Manas Ghosh; Physica B, 588 (2020) 412166 (07 pages).
  3. “Transition kinetics of impurity doped quantum dots under time-dependent confi nement potential: Role of noise”- Anuja Ghosh, Sk. Md. Arif, Aindrila Bera and Manas Ghosh; European Physical Journal B, 93 (2020) 91 (11 pages).
  4. “Transition kinetics of impurity doped quantum dots under time-varying magnetic field: Role of noise”-  Aindrila Bera, Anuja Ghosh, Sk. Md. Arif and Manas Ghosh; Superlattices and Microstructures, 143 (2020) 106554 (13 pages).
  5. “Transition kinetics of impurity doped quantum dots driven by sinusoidal field: Role of Gaussian white noise”- Sk. Md. Arif, Aindrila Bera, Anuja Ghosh and Manas Ghosh; Chinese Journal of Physics, 66 (2020) 112-123.
  6. “Profi les of static quadrupole polarizability of impurity doped quantum dots driven by Gaussian white noise”- Anuja Ghosh, Sk. Md. Arif, Aindrila Bera and Manas Ghosh; Physica Status Solidi B, 257 (2020) 1900766 (09 pages).
  7. “Exploring quadrupole oscillator strength of impurity doped quantum dots controlled by Gaussian white noise”- Aindrila Bera, Anuja Ghosh, Sk. Md. Arif and Manas Ghosh; European Physical Journal D, 74 (2020) 230 (08 pages).

2021

  1. “Exploring noise-effect on the intraband transition lifetime of impurity doped quantum dots”- Sk. Md. Arif, Aindrila Bera, Anuja Ghosh and Manas Ghosh; Biointerface Research in Applied Chemistry, 11 (2) (2021) 8639-8653.
  2. “Adiabatic switching among quantum dot eigenstates: Role of anharmonicity and Gaussian white noise”-Debi Roy, Sk. Md. Arif and Manas Ghosh; Physica Status Solidi B, 258 (2021) 2100295 (14 pages), PSS 60th Anniversary Special Issue.

2022

  1. “Exploring quantum adiabatic switching among impurity-modulated states in doped quantum dots: Role of Gaussian white noise”-Sk. Md. Arif, Debi Roy and Manas Ghosh; Physica B, 625 (2022) 413477 (16 pages).
  2. “Analyzing group index of impurity doped quantum dots under the superintendence of Gaussian white noise”-Sk. Md. Arif, Aindrila Bera, Debi Roy and Manas Ghosh; European Physical Journal B, 95 (2022) 21 (18 pages).
  3. “Influence of noise-anharmonicity interplay on a few physical properties of quantum dot”-Sk. Md. Arif, Debi Roy and Manas Ghosh; Physica Status Solidi B, 259 (2022) 2100497 (13 pages).
  4. “Profiles of optical gain of impurity doped quantum dots under the stewardship of Gaussian white noise”- Sk. Md. Arif, Debi Roy, Aindrila Bera and Manas Ghosh; Physica Status Solidi B, 259 (2022) 2200035 (24 pages).
  5. “Pulsed field induced excitation in impurity doped quantum dot: Interplay with Gaussian white noise”- Swarnab Datta, Sk. Md. Arif, Debi Roy and Manas Ghosh; Physica B, 643 (2022) 414163 (18 pages).
  6. “Sonogashira coupling reaction and its application in dendrimer synthesis”- Pritam Roy Chowdhury, Debabrata Singha, Sudeshna Sawoo, Manas Ghosh and Nilasish Pal; Asian Journal of Chemistry, 34 (2022) 1939-1957.
  7. “Modulation of electrical and optical properties of quantum dot by noise- anharmonicity interplay”-Debi Roy, Sk. Md. Arif and Manas Ghosh; Brazilian Journal of Physics, 52 (2022) 178 (19 pages).
  8. “Excitation Dynamics among Impurity Doped Quantum Dot Eigenstates in a Polychromatic Field: Role of Gaussian White Noise”-Swarnab Datta, Sk. Md. Arif, Debi Roy and Manas Ghosh; Chemistry Select, 07 (2022) e202202244 (10 pages).
  9. “Chirped pulsed field initiated excitation dynamics in impurity doped quantum dot under the in uence of noise”-Sk. Md. Arif, Swarnab Datta, Debi Roy and Manas Ghosh; European Physical Journal Plus, 137 (2022) 1170 (12 pages).
  10. “Analyzing time-average excitation rate among quantum dot eigenstates triggered by time-dependent noise strength”- Swarnab Datta, Sk. Md. Arif, Debi Roy and Manas Ghosh; Physica Status Solidi B, 259 (2022) 2200216 (09 pages).
  11. “Tuning the nonlinear optical properties of quantum dot by noise-anharmonicity interplay”-Debi Roy, Sk. Md. Arif, Swarnab Datta and Manas Ghosh; Atoms, 10 (2022) 122 (32 pages), Special Issue Entitled “Quantum Dynamics of Matter in Tailored Intense Fields”.

2023

  1. “Population transfer among the quantum dot eigenstates driven by time-dependent anharmonic potential: Role of noise”- Swarnab Datta, Sk. Md. Arif, Debi Roy and Manas Ghosh; ChemistrySelect 8 (2023) e202204212 (10 pages).
  2. “External field-induced transitions in quantum dot: Role of noise-anharmonicity interplay” Swarnab Datta, Sk. Md. Arif, Debi Roy and Manas Ghosh; ChemistrySelect 8 (2023) e202203839 (12 pages).
  3. “Influence of impurity binding energy on the excitation dynamics of doped GaAs quantum dot: Role of noise”- Swarnab Datta and Manas Ghosh; Journal of Chemical Science 135 (2023) 15 (10 pages), Special Issue Entitled Interplay of Structure and Dynamics in Reaction Pathways, Chemical Reactivity and Biological Systems”.
  4. “Transitions among doped GaAs quantum dot eigenstates initiated by time-varying impurity potential: Influence of noise”- Swarnab Datta, Sk. Md. Arif, Debi Roy and Manas Ghosh; Biointerface Research in Applied Chemistry 13 (2023) 503 (16 pages).
  5. “Role of spatial impurity spread on the Transition dynamics of doped GaAs quantum dot in presence of noise”- Swarnab Datta, Bhaskar Bhakti and Manas Ghosh; Physica Status Solidi B 260 (2023) 2300281 (06 pages).
  6. “Population transfer dynamics in doped GaAs quantum dot modulated by noise: Role of impurity stretch”- Swarnab Datta, Bhaskar Bhakti and Manas Ghosh; Bulletin of Materials Science 46 (2023) 231 (10 pages).

2024

  1. “Role of anharmonicity binding energy on the transition dynamics of GaAs quantum dot in presence of noise”- Swarnab Datta, Bhaskar Bhakti and Manas Ghosh; Indian Journal of Physics 98 (2024) 1247-1258.
  2. “Influence of spatial extension of impurity on the nonlinear optical properties of doped GaAs quantum dot in presence of noise”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; Modern Physics Letters B 38 (2024) 2350242 (14 pages).
  3. “Fine-tuning a few nonlinear optical properties of doped GaAs quantum dot by spatial spread of impurity under the aegis of noise”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; Indian Journal of Physics https://doi.org/10.1007/s12648-024-03093-8  (2024, 09 pages).
  4. “Harnessing the thermodynamic properties of GaAs quantum dot under the influence of noise-anharmonicity interplay”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; European Physical Journal B 97 (2024) 24 (11 pages).
  5. “Tuning the magnetocaloric effect in GaAs quantum dot under the aegis of noise-anharmonicity interplay”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; Physica B 679 (2024) 415804 (07 pages).
  6. “Nonlinear optical properties of doped GaAs quantum dot modulated by noise: Role of impurity spread”- Swarnab Datta, Bhaskar Bhakti and Manas Ghosh; Journal of Nonlinear Optical Physics and Materials 33 (2024) 2340002 (18 pages), Special Issue entitled “Nonlinear optical physics in 2D materials”.
  7. “Exploring Shannon entropy and heat capacity of doped GaAs quantum dot under the influence of noise”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; Physica B 683 (2024) 415901 (14 pages).
  8. “Harnessing the Shannon entropy-based magnetocaloric effect in GaAs quantum dot under the influence of noise-anharmonicity interplay” – Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; Physica Status Solidi B (in press, 2024).
  9. “Analyzing the magnetocaloric effect in doped GaAs quantum dot in view of Shannon entropy: Role of noise”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; European Physical Journal Plus 139 (2024) 364 (13 pages).
  10. “Modulation of Tsallis entropy and corresponding thermodynamic properties of impurity doped GaAs quantum dot in presence of noise”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; Next Nanotechnology 6 (2024) 100072 (18 pages).
  11. “Modulation of thermodynamic properties of doped GaAs quantum dot under the influence of noise”- Bhaskar Bhakti, Swarnab Datta and Manas Ghosh; Physica Status Solidi B (in press, 2024).

Books:

Excitation in Impurity Doped Quantum Dots: Role of Impurity Parameters by Manas Ghosh and Nirmal Kumar Datta, Research Level Book, Lambert Academic Publishing, (Germany), ISBN-13: 978-3-8443-8932-6, ISBN: 3-8443-8932-6, published in 2012.