Own Publications

[1] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Enhancement of Electron Spin Relaxation Time in Thin SOI Films by Spin Injection Orientation and Uniaxial Stress. Journal of Nano Research, 39:34–42, 2016.

[2] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Intersubband Spin Relaxation Reduction and Spin Lifetime Enhancement by Strain in SOI Structures. Microelectronic Engineering, 147:89–91, 2015.

[3] T. Windbacher, J. Ghosh, A. Makarov, V. Sverdlov, and S. Selberherr. Modelling of Multipurpose Spintronic Devices. International Journal of Nanotechnology, 12:313–331, 2015.

[4] J. Ghosh, T. Windbacher, V. Sverdlov, and S. Selberherr. Spin Injection in a Semiconductor Through a Space-Charge Layer. Solid-State Electronics, 101:116–121, 2014.

[5] J. Ghosh, T. Windbacher, V. Sverdlov, and S. Selberherr. Spin Injection and Diffusion in Silicon Based Devices from a Space Charge Layer. Journal of Applied Physics, 115(17):17C503–1–17C503–3, 2014.

[6] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Variation of Spin Lifetime with Spin Injection Orientation in Strained Thin Silicon Films. ECS Transactions, 66:233–240, 2015.

[7] J. Ghosh, D. Osintsev, V. Sverdlov, J. Weinbub, and S. Selberherr. Evaluation of Spin Lifetime in Thin-Body FETs: A High Performance Computing Approach. Lecture Notes in Computer Science, 9374:285–292, 2015.

[8] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Dependence of Spin Lifetime on Spin Injection Orientation in Strained Silicon Films. In Proceedings of the Joint International EUROSOI Workshop and International Conference on Ultimate Integration on Silicon (EUROSOI-ULIS), pages 285–288. IEEE, 2015.

[9] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Injection Direction Sensitive Spin Lifetime Model in a Strained Thin Silicon Film. In Proceedings of the 20^th International Conference on Simulation of Semiconductor Processes and Devices (SISPAD), pages 277–280, 2015.

[10] J. Ghosh, V. Sverdlov, and S. Selberherr. Influence of Valley Splitting on Spin Relaxation Time in a Strained Thin Silicon Film. In Proceedings of the 18^th International Workshop on Computational Electronics (IWCE), pages 1–4, 2015.

[11] V. Sverdlov, J. Ghosh, A. Makarov, T. Windbacher, and S. Selberherr. CMOS-Compatible Spintronic Devices. In Proceedings of the 30^th Symposium on Microelectronics Technology and Devices (SBMicro), 2015.

[12] V. Sverdlov, J. Ghosh, A. Makarov, T. Windbacher, and S. Selberherr. Silicon and CMOS-Compatible Spintronics. In Proceedings of the International Conference on Applied Physics, Simulation and Computers (APSAC 2015), pages 17–20. Recent advances in Computer Engineering, 2015.

[13] V. Sverdlov, J. Ghosh, A. Makarov, T. Windbacher, and S. Selberherr. Silicon Spintronics: Recent Advances and Challenges. In Proceedings of the 2015 International Conference and School for Young Scientists Information Technology and Nanotechnology (ITNT), 2015.

[14] J. Ghosh, V. Sverdlov, and S. Selberherr. Spin Diffusion and the Role of Screening Effects in Semiconductors. In Proceedings of the 17^th International Workshop on Computational Electronics (IWCE), pages 1–4, 2014.

[15] V. Sverdlov, J. Ghosh, D. Osintsev, and S. Selberherr. Modeling Silicon Spintronics. In Recent Advances in Mathematical Methods in Applied Sciences, volume 32, pages 195–198, 2014.

[16] V. Sverdlov, J. Ghosh, H. Mahmoudi, A. Makarov, D. Osintsev, T. Windbacher, and S. Selberherr. Modeling of Spin-Based Silicon Technology. In Proceedings of the International Conference on Ultimate Integration on Silicon (ULIS), pages 1–4, 2014.

[17] V. Sverdlov, J. Ghosh, H. Mahmoudi, A. Makarov, D. Osintsev, T. Windbacher, and S. Selberherr. Modeling Spin-Based Electronic Devices. In Proceedings of the 29^th International Conference on Microelectronics, pages 27–34, 2014.

[18] J. Ghosh, V. Sverdlov, and S. Selberherr. Influence of a Space Charge Region on Spin Transport in Semiconductor. In Proceedings of the International Semiconductor Device Research Symposium (ISDRS), page 27, 2013.

[19] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Increase of Surface Roughness and Phonon Scattering Mediated Spin Lifetime in Thin Strained SOI Film. In Book of Abstracts of the 2015 E-MRS Fall Meeting, 2015.

[20] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Intersubband Spin Relaxation Reduction and Spin Lifetime Enhancement by Strain in SOI Structures. In Book of Abstracts of the 19^th Conference on Insulating Films on Semiconductors, pages 235–236, 2015.

[21] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Spin Lifetime Dependence on Spin Injection Orientation in Strained Silicon Films. In Bulletin of the American Physical Society (APS March Meeting), volume 60/1, 2015.

[22] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Spin Lifetime Dependence on Valley Splitting in Thin Silicon Films. In Book of Abstracts of the 18^th International Workshop on Computational Electronics (IWCE), pages 35–36, 2015.

[23] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Variation of Spin Lifetime with Spin Injection Orientation in Strained Thin Silicon Films. In Proceedings of the 227^th ECS Meeting (ECS). ECS Transactions, 2015.

[24] J. Ghosh, V. Sverdlov, and S. Selberherr. Increment of Spin Lifetime by Spin Injection Orientation in Stressed Thin SOI Films. In Program and Abstract Book of the 8^th International School & Conference on Spintronics and Quantum Information Technology, page 130, 2015.

[25] D. Osintsev, J. Ghosh, V. Sverdlov, J. Weinbub, and S. Selberherr. Spin Lifetime in MOSFETs: A High Performance Computing Approach. In Book of Abstracts of the 10^th International Conference on Large-Scale Scientific Computations (LSSC), pages 60–61, 2015.

[26] V. Sverdlov, J. Ghosh, A. Makarov, T. Windbacher, and S. Selberherr. Silicon spintronics. In Book of Abstracts of the NATO Advanced Research Workshop ”Functional Nanomaterials and Devices for Electronics, Sensors, Energy Harvesting”, pages 44–45, 2015.

[27] V. Sverdlov, J. Ghosh, A. Makarov, T. Windbacher, and S. Selberherr. Spin-Driven Applications of Silicon and CMOS-Compatible Devices. In Proceedings of the BIT’s 5tht Annual Congress of Nano Science and Technology-2015, page 175, 2015.

[28] V. Sverdlov, J. Ghosh, D. Osintsev, and S. Selberherr. Electron Spin Lifetime Enhancement by Shear Strain in Thin Silicon Films. In Book of Abstracts of the 2015 CMOS Emerging Technologies Research Symposium (CMOSETR), page 58. Google Books, 2015.

[29] V. Sverdlov, D. Osintsev, J. Ghosh, and S. Selberherr. Strained Silicon-on-Insulator for Spintronic Applications: Giant Spin Lifetime Enhancement. In Book of Abstracts of the Advanced Research Workshop on Future Trends in Microelectronics: Journey into the Unknown, page 63, 2015.

[30] J. Ghosh, D. Osintsev, V. Sverdlov, and S. Selberherr. Evaluation of Spin Lifetime in Thin Silicon Films by Multilevel Parallelization. Posterpresentation: nanoHUB User Conference, West Lafayette, Indiana, USA, 2015.

[31] J. Ghosh, V. Sverdlov, and S. Selberherr. Spin Diffusion in Silicon from a Ferromagnetic Contact. In Book of Abstracts of the 10^th European Conference on Magnetic Sensors and Actuators (EMSA 2014), page 165, 2014.

[32] J. Ghosh, V. Sverdlov, and S. Selberherr. Spin Injection in Silicon: The Role of Screening Effects. In Book of Abstracts of the 17^th International Workshop on Computational Electronics (IWCE), pages 63–64, 2014.

[33] V. Sverdlov, J. Ghosh, D. Osintsev, and S. Selberherr. Modeling Silicon Spintronics. In Book of Abstracts of the International Conference on Mathematical Models and Methods in Applied Sciences, page 78, 2014.

[34] J. Ghosh, T. Windbacher, V. Sverdlov, and S. Selberherr. Spin Injection and Diffusion in Silicon Based Devices from a Space Charge Layer. In Book of Abstracts of the 58^th Annual Conference of Magnetism and Magnetic Materials (MMM), pages 713–714, 2013.

[35] J. Ghosh, D. Reuter, M. Rennau, K. Hiller, G. Salvan, M. Fronk, D. R. T. Zahn, C. C. Bof Buffon, and O. Schmidt. I-V Characteristics of Copper Phthalocyanine Based Laterally Stacked Devices Fabricated by Semiconductor Processing. In Book of Abstracts of the Deutsche Physikalische Gesellschaft (DPG), 2012.