Nonlinear resonant-tunneling through double-barrier structures

Díez Alcántara, Eduardo; Domínguez-Adame Acosta, Francisco; Sánchez, A.

Nonlinear resonant-tunneling through double-barrier structures

dc.contributor.author	Díez Alcántara, Eduardo
dc.contributor.author	Domínguez-Adame Acosta, Francisco
dc.contributor.author	Sánchez, A.
dc.date.accessioned	2023-06-20T19:11:56Z
dc.date.available	2023-06-20T19:11:56Z
dc.date.issued	1995-03-13
dc.description	© Elsevier. F. D-A. acknowledges support from UCM through project PR161/93-4811. A. S. acknowledges partial support from C.I.C. y T. (Spain) through project PB92-0248 and by the European Union Human Capital and Mobility Programme through contract ERBCHRXCT930413.
dc.description.abstract	We study resonant tunnelling through double-barrier structures under an applied bias voltage, in which nonlinearities due to self-interaction of electrons in the barrier regions are included. As an approximation, we concern ourselves with thin barriers simulated by delta-function potentials. This approximation allows for an analytical expression of the transmission probability through the structure. We show that the typical peaks due to resonant tunneling decrease and broaden as nonlinearity increases. The main conclusion is that nonlinear effects degrade the peak-to-valley ratio but improve the maximum operation frequency of the resonant tunnelling devices.
dc.description.department	Depto. de Física de Materiales
dc.description.faculty	Fac. de Ciencias Físicas
dc.description.refereed	TRUE
dc.description.sponsorship	UCM
dc.description.sponsorship	C.I.C. y T. (Spain)
dc.description.sponsorship	European Union Human Capital and Mobility Programme
dc.description.status	pub
dc.eprint.id	https://eprints.ucm.es/id/eprint/27769
dc.identifier.doi	10.1016/0375-9601(95)00079-I
dc.identifier.issn	0375-9601
dc.identifier.officialurl	http://dx.doi.org/10.1016/0375-9601(95)00079-I
dc.identifier.relatedurl	http://www.sciencedirect.com/
dc.identifier.relatedurl	http://arxiv.org/abs/cond-mat/9410092
dc.identifier.uri	https://hdl.handle.net/20.500.14352/59380
dc.issue.number	5-jun
dc.journal.title	Physics Letters A
dc.language.iso	eng
dc.page.final	406
dc.page.initial	403
dc.publisher	Elsevier
dc.relation.projectID	PR161/93-4811
dc.relation.projectID	PB92-0248
dc.relation.projectID	ERBCHRXCT930413
dc.rights.accessRights	open access
dc.subject.cdu	538.9
dc.subject.keyword	Physics
dc.subject.keyword	Multidisciplinary
dc.subject.ucm	Física de materiales
dc.title	Nonlinear resonant-tunneling through double-barrier structures
dc.type	journal article
dc.volume.number	198
dcterms.references	[1] T. C. L. G. Sollner, W. D. Goodhue, P. E. Tannenwald, C. D. Parker, and D. D. Peck, Appl. Phys. Lett. 43, 588 (1984). [2] B. Méndez and F. Domínguez-Adame, Am. J. Phys. 62, 143 (1994). [3] T. Figielski, A. M¸akosa, T. Wosínski, P. C. Harness and K. E. Singer, Solid Stat. Commun. 91, 913 (1994). [4] P. Hawrylak, M. Grabowski, and P. Wilson, Phys. Rev. B 40, 6398 (1989). [5] M. Grabowski and P. Hawrylak, Phys. Rev. B 41, 5783 (1990). [6] E. Cota, J. V. José, and G. Monsivais, J. Phys. A: Math. Gen. 25, L57 (1992). [7] F. Bentosela, V. Grecchi, and F. Zironi, J. Phys. C: Solid State Phys. 15, 719 (1982). [8] S. Nonoyama, A. Oguri, Y. Asano, and S. Makeawa, Phys. Rev. B 50, 2667 (1994). [9] T. C. Gill and D. A. Collins, Semicond. Sci. Technol. 5, S1 (1990). [10] R. Beresford, L. F. Luo, and W. I. Wang, Semicond. Sci. Technol. 5, S195 (1990). [11] J. Callaway, Quantum Theory of the Solid State, (Academic Press, New York, 1991). [12] F. Domínguez-Adame, J. Phys. A: Math. Gen. 26, 3863 (1993).
dspace.entity.type	Publication
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