Low-bias negative differential resistance in graphene nanoribbon superlattices (2010)
- Authors:
- Autor USP: MENEZES, JOSE CARLOS EGUES DE - IFSC
- Unidade: IFSC
- Subjects: FÍSICA MODERNA; MECÂNICA HAMILTONIANA; SEMICONDUTORES
- Language: Inglês
- Imprenta:
- Publisher: Universidade de Sâo Paulo - USP, Instituto de Física de São Carlos - IFSC
- Publisher place: São Carlos
- Date published: 2010
- Source:
- Título: Abstract Book
- Conference titles: São Paulo School of Advanced Science: Spintronics and Quantum Computation
-
ABNT
FERREIRA, Gerson J. et al. Low-bias negative differential resistance in graphene nanoribbon superlattices. 2010, Anais.. São Carlos: Universidade de Sâo Paulo - USP, Instituto de Física de São Carlos - IFSC, 2010. . Acesso em: 12 jan. 2026. -
APA
Ferreira, G. J., Leuenberger, M. N., Loss, D., & Egues, J. C. (2010). Low-bias negative differential resistance in graphene nanoribbon superlattices. In Abstract Book. São Carlos: Universidade de Sâo Paulo - USP, Instituto de Física de São Carlos - IFSC. -
NLM
Ferreira GJ, Leuenberger MN, Loss D, Egues JC. Low-bias negative differential resistance in graphene nanoribbon superlattices. Abstract Book. 2010 ;[citado 2026 jan. 12 ] -
Vancouver
Ferreira GJ, Leuenberger MN, Loss D, Egues JC. Low-bias negative differential resistance in graphene nanoribbon superlattices. Abstract Book. 2010 ;[citado 2026 jan. 12 ] - Topics in scientific writing and editoring
- Spintronics based on percolated topological edge states
- Topological and nontopological edge states in ordinary quantum matter
- Majorana modes and Kondo effect in a quantum dot attached to a topological superconducting wire
- Persistent skyrmion lattice of noninteracting electrons with spin-orbit coupling
- Symmetry breaking of the persistent spin helix in quantum transport
- Subtle leakage of a Majorana mode into a quantum dot
- Closed-form weak localization magnetoconductivity in quantum wells with arbitrary rashba and dresselhaus spin-orbit interactions
- Topological phenoma in 'ordinary' systems
- Compromise-free scaling of qubit speed and coherence
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