kw.\*:("Quantum wire")
Results 1 to 25 of 2765
Selection :
On the possibility of the development of vicinal superlattices in quantum wires on semiconductor low-index surfacesPETROV, V. A.SPIE proceedings series. 1998, pp 300-304, isbn 0-8194-2726-8Conference Paper
New GaAs quantum wires on {111}B facets by selective MOCVDFUKUI, T; ANDO, S.Electronics Letters. 1989, Vol 25, Num 6, pp 410-412, issn 0013-5194, 3 p.Article
On the possibility of the development of vicinal superlattices in quantum wires on semiconductor low-index surfacesPETROV, V. A.SPIE proceedings series. 1998, pp 94-97, isbn 0-8194-2756-X, 2VolConference Paper
Electron transport through a strongly correlated monoatomic chainKRAWIEC, M; KWAPINSKI, T.Surface science. 2006, Vol 600, Num 8, pp 1697-1701, issn 0039-6028, 5 p.Conference Paper
Advantage of strained quantum wire lasersUENO, S; MIYAKE, Y; ASADA, M et al.Japanese journal of applied physics. 1992, Vol 31, Num 2A, pp 286-287, issn 0021-4922, 1Article
Energy Spectrum of Two-Particle Cruciform Quantum WiresESCORCIA-SALAS, G. Elizabeth; MIKHAILOV, I. D; SIERRA-ORTEGA, J et al.Journal of superconductivity and novel magnetism. 2013, Vol 26, Num 6, pp 2223-2226, issn 1557-1939, 4 p.Conference Paper
Standing waves and resonance transport mechanism in quantum networksPAVLOV, Boris; YAFYASOV, Adil.Surface science. 2007, Vol 601, Num 13, pp 2712-2716, issn 0039-6028, 5 p.Conference Paper
Conductance of Pb on modified Si(3 3 5) vicinal surfaceKORCZAK, Z; KWAPINSKI, T; MAZUREK, P et al.Surface science. 2010, Vol 604, Num 1, pp 54-58, issn 0039-6028, 5 p.Article
Conditions for the spectrum associated with an asymptotically straight leaky wire to comprise the interval (-∞, oo)BROWN, B. M; EASTHAM, M. S. P; WOOD, I. G et al.Journal of physics. A, Mathematical and theoretical (Print). 2009, Vol 42, Num 5, issn 1751-8113, 055207.1-055207.4Article
Individual single-wall carbon nanotubes as quantum wiresTANS, S. J; DEVORET, M. H; DAI, H et al.Nature (London). 1997, Vol 386, Num 6624, pp 474-477, issn 0028-0836Article
General technique for fabricating large arrays of nanowiresJORRITSMA, J; GIJS, M. A. M; KERKHOF, J. M et al.Nanotechnology (Bristol. Print). 1996, Vol 7, Num 3, pp 263-265, issn 0957-4484Conference Paper
Low-threshold lasing eigenmodes of an infinite periodic chain of quantum wiresBYELOBROV, Volodymyr O; CTYROKY, Jiri; BENSON, Trevor M et al.Optics letters. 2010, Vol 35, Num 21, pp 3634-3636, issn 0146-9592, 3 p.Article
Formation of III-V low dimensional structures and their applications to intelligent quantum chipsHASEGAWA, Hideki.Microelectronics journal. 2003, Vol 34, Num 5-8, pp 341-345, issn 0959-8324, 5 p.Conference Paper
Investigation of electronic properties of space-charge quantum wiresMARIETTA, A; FANYAO QU; DANTAS, N. O et al.Microelectronics journal. 2003, Vol 34, Num 5-8, pp 663-665, issn 0959-8324, 3 p.Conference Paper
Patterning and overgrowthy of nanostructure quantum well wire arrays by LP-MOVPEKARAM, N. H; MASTROVITO, A; HAVEN, V et al.Journal of crystal growth. 1990, Vol 107, Num 1-4, pp 591-597, issn 0022-0248Conference Paper
Quantum hypernetted chain approximation for one-dimensional fermionic systemsSTOICO, César O; CARLEVARO, C. Manuel; RENZI, Danilo G et al.Physica. E, low-dimentional systems and nanostructures. 2010, Vol 42, Num 5, pp 1691-1705, issn 1386-9477, 15 p.Article
Quasi-one-dimensional polaron gas in a GaAs quantum wireMACHADO, P. C. M; OSORIO, F. A. P; BORGES, A. N et al.Microelectronics journal. 2009, Vol 40, Num 4-5, pp 799-801, issn 0959-8324, 3 p.Conference Paper
Linear optical responses of one-dimensional electron systems : Comparison of theories with experimentsOGAWA, Tetsuo; PING HUAI; TAKAGIWA, Mutsuki et al.Physica. E, low-dimentional systems and nanostructures. 2008, Vol 40, Num 5, pp 1288-1291, issn 1386-9477, 4 p.Conference Paper
Tuning the confinement strength in a split-gate quantum wireHEW, W. K; THOMAS, K. J; FARRER, I et al.Physica. E, low-dimentional systems and nanostructures. 2008, Vol 40, Num 5, pp 1645-1647, issn 1386-9477, 3 p.Conference Paper
Novel nonlithographic quantum wire array fabricationDAS, Biswajit; SINGARAJU, Pavan.Physica. E, low-dimentional systems and nanostructures. 2007, Vol 36, Num 2, pp 133-139, issn 1386-9477, 7 p.Article
Synchronous photoluminescence intermittency (blinking) along whole semiconductor quantum wiresGLENNON, John J; RUI TANG; BUHRO, William E et al.Nano letters (Print). 2007, Vol 7, Num 11, pp 3290-3295, issn 1530-6984, 6 p.Article
Theory of excitonic confinement in semiconductor quantum wiresROSSI, F; GOLDONI, G; MAURITZ, O et al.Journal of physics. Condensed matter (Print). 1999, Vol 11, Num 31, pp 5969-5988, issn 0953-8984Conference Paper
Double-row transport in quantum wires of shallow confinementHEW, W. K; THOMAS, K. J; PEPPER, M et al.Physica. E, low-dimentional systems and nanostructures. 2010, Vol 42, Num 4, pp 1118-1121, issn 1386-9477, 4 p.Conference Paper
Spectral responsivity of the quantum wire infrared photodetectorsNASR, A.Optics and laser technology. 2009, Vol 41, Num 3, pp 345-350, issn 0030-3992, 6 p.Article
Junction of Tomonaga-Luttinger liquidsOSHIKAWA, Masaki.Physica. E, low-dimentional systems and nanostructures. 2005, Vol 29, Num 3-4, pp 483-489, issn 1386-9477, 7 p.Conference Paper