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Your search keyword '"Dubey, Prabhat"' showing total 28 results
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28 results on '"Dubey, Prabhat"'

1. Strain-induced valley transport in CrBr$_3$/WSe$_2$/CrBr$_3$ van der Waals heterostructure

Author

Soriano, David, Marian, Damiano, Dubey, Prabhat, and Fiori, Gianluca

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Two dimensional magnetic materials are at the forefront of the next generation of spintronic devices. The possibility to interface them with other van der Waals materials such as transition metal dichalcogenides has opened new possibilities for the observation of new and exiting physical phenomena. Here, we present a proof-of-concept valleytronic device based on CrBr$_3$-encapsulated WSe$_2$ showing an unprecedented valley splitting of $\sim 100$ meV under compressive strain of the WSe$_2$, able to be tuned by the relative magnetization of the encapsulating layers. Multiscale transport simulations performed on this device show a spin-valley current with a polarization higher than 80$\%$ than is maintained in a range of $\sim$ 0.3 V gate voltage in a field-effect transistor configuration. The impact of the stacking configuration on the valley splitting is also evaluated., Comment: 10 pages, 13 figures

Published
2024

3. Strain-induced valley transport in a CrBr3/WSe2/CrBr3 van der Waals heterostructure

Author

Universidad de Alicante. Departamento de Física Aplicada, Soriano, David, Marian, Damiano, Dubey, Prabhat, Fiori, Gianluca, Universidad de Alicante. Departamento de Física Aplicada, Soriano, David, Marian, Damiano, Dubey, Prabhat, and Fiori, Gianluca

Abstract

Two-dimensional magnetic materials are at the forefront of the next generation of spintronic devices. The possibility to interface them with other van der Waals materials such as transition metal dichalcogenides has opened new possibilities for the observation of new and existing physical phenomena. Here, we present a proof-of-concept valleytronic device based on CrBr3-encapsulated WSe2 showing an unprecedented valley splitting of ∼100meV under the compressive strain of the WSe2, able to be tuned by the relative magnetization of the encapsulating layers. Multiscale transport simulations performed on this device show a spin-valley current with a polarization higher than 80% than is maintained in a range of ∼0.3V gate voltage in a field-effect transistor configuration. The impact of the stacking configuration on the valley splitting is also evaluated.

Published
2024

5. Integrated navigation, guidance and control system and validation

Author

Barua, Arindam, Premchand, M. P., Vishnu, R., Dubey, Prabhat Kumar, Gopinath, Ambili K., Anitha, S., Keezhoth, Renjith, Madeckal, Anil P., Karthikeyan, D., Antony, Sheethal, Babu, J. Suresh, Rao, R. Manohara, Sudar, I., and Padmakumar, E. S.

Published
2018

7. List of Contributors

Author

Ajayan, J., primary, Chaudhury, Saurabh, additional, Das, Suprem R., additional, Dubey, Prabhat Kumar, additional, D’Esposito, Rosario, additional, Frégonèse, Sébastien, additional, Goyal, Navdeep, additional, Hegde, Ravi S., additional, Jaiswal, Rahul Kumar, additional, Khatua, Saumyakanti, additional, Kotnala, R.K., additional, Mei, Yaochuan, additional, Mishra, Sachin, additional, Mittal, Sparsh, additional, Nirmal, D., additional, Pandit, Nidhi, additional, Pathak, Nagendra Prasad, additional, Pathak, Shibnath, additional, Raval, Bhargav, additional, Sensale-Rodriguez, Berardi, additional, Shukla, Vaishali, additional, Singh, Man, additional, Sinha, Sanjeet Kumar, additional, Verma, Kuldeep C., additional, Wang, Xinbo, additional, and Zimmer, Thomas, additional

Published
2019
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28. Multiple Species Plasma Boundary Criterion with Non-Degenerate Entry Flows.

Author

Dubey, Prabhat Kumar, Yadav, Nishchhal, and Sharma, Devendra

Subjects
*PLASMA boundary layers, *ABSORPTION, *FLUID dynamics, *DEBYE length, *ELECTROCHEMISTRY
Abstract

The structure and spatial scaling of a collective electrostatic sheath forming in multiple-ion-species plasmas flowing into an absorbing boundary is examined using generalized criterion allowing non-degenerate entry flows. The sheath thickness is characterized with respect to the relative velocities of entry between individual ion species. Using the dispersion relation of multiple ion species plasma it is shown that while the smaller sheath thickness corresponds to the entry velocities of the incident ion species far exceeding the effective ion acoustic velocity. The plasma Debye length remains the limiting value of the sheath thickness beyond which the entry velocity solutions are lost as the individual ion velocities must ideally approach infinity for the sheath dimension approaching the Debye length. [ABSTRACT FROM AUTHOR]

Published
2015
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