A Qualitative Review of Spintronics Devices With Apllications to Harness Ambient Energy at the Normal Temperature on the Basis of Quantum Thermodynamics
Abstract
A Qualitative Review of Spintronics Devices and their Applications to harness Ambient Energy at the Normal Temperature on the basis of Quantum Thermodynamics has been presented in this paper. The approach to design the devices on the basis of Mathematical equations, has been suggested. The importance of Nersnt equation in the analysis has been emphasized. The paper is expected to be useful to the designers and engineers engaged in developing Ambient energy generation devices.
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Bauer, G. E., Saitoh, E., & van Wees, B. J. (2012). Spin caloritronics. Nat Mater., 11, 39.
Chopra, K. N. (2013). A short note on the organic semiconductors and their technical applications in spintronics. Lat Am J Phys E, 7(4), 674-679.
Chopra, K. N. (2013). A technical note on spintronics (An off -shoot of electronics) – its Concept, Growth and Applications. Atti Fond G. Ronchi, Italy, 68, 293-303.
Chopra, K. N. (2013). New materials and their selection for designing and fabricating the spintronic devices – A technical note. Atti Fond G. Ronchi, 68, 673-680.
Chopra, K. N. (2014). A short review on designing and fabrication of spintronic devices. Atti Fond G. Ronchi, 69(2), 223-234.
Chopra, K. N. (2014). Biophotonics and Optofluidics Technology –Technical Analysis and Qualitative Review of the Novel Applications. Lat Am J Phys E, 8(1), 533-540.
Chopra, K. N. (2015), Optimization of the conversion of the geothermal energy into electricity – A short note. Atti Fond. G. Ronchi, Italy, 70, 17-25.
Chopra, K. N. (2015). Technical analysis of the maximization of the thermo-chemical Solar power with special reference to Fulvalene Diruthenium, Atti Fond. G. Ronchi, Italy, 71(2), 213-220.
Chopra, K. N. (2016). Technical treatment of the efficiency maximization of the highly efficient oxygen-producing electrodes for splitting water technology. Atti Fond. G. Ronchi, Italy, 71(5), 579-587.
Chopra, K. N. (2019). Spintronics - Theoretical analysis and designing of devices based on giant magneto resistance. DESIDOC monograph series, DRDO, Ministry of Defence, Government of India.
Chopra, K. N. (2020). Recent novel advances in harnessing energy. European biomass conference and exhibition, Marseille, France.
Gomonay, E. V., & Loktev, V. M. (2014). Spintronics of antiferromagnetic systems (Review Article). Low Temp Phys., 40, 1735.
Gomonay, H., & Loktev, V. (2013). Hydrodynamic theory of coupled current and magnetization dynamics in spin-textured antiferromagnets, arXiv:1305.6734.
Hals, K. M. D., Tserkovnyak, Y., & Brataas, A. (2011). Phenomenology of current-induced dynamics in antiferromagnets. Phys Rev Lett., 106, 107206.
Kamal Nain Chopra (2014). Mathematical Aspects of Spin-related Phenomena Models and the Associated Criteria for Spintronics. Lat Am J Phys E, 8, 4313-1-4313-6.
Li, X. X., Wu, X. J., & Yang, J. L. (2013). Control of spin in a La (Mn, Zn) AsO alloy by carrier doping. J Mater Chem, C 1, 7197201.
Sharma, H., Wen, Z. C., Takanashi, K., & Mizuguch, M. (2019). Anomaly in anomalous Nernst effect at low temperature for C1b-type NiMnSb half-Heusler alloy thin film. Jpn J Appl Phys., 58, SBBI03.
Windbacher, T., Ghosh, J., Makarov, A., Sverdlov, V., & Selberherr, S. (2015). Modelling of multipurpose spintronic devices. Int. J. Nanotechnol., 12(3/4), 313.
Yu, Z. G., & Flatté, M. E. (2002). Spin diffusion and injection in semiconductor structures: Electric field effects. Phys. Rev. B, 66(December), 235302.
Zhang, J. H., Li, X. X., & Yang, J. L. (2015). Electrical control of carriers’ spin orientation in the FeVTiSi Heusler alloy. J Mater Chem, C, 3, 25637.
DOI: http://dx.doi.org/10.3968/11516
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