Bibliografías temáticas / Coulomb blockade

Literatura académica sobre el tema "Coulomb blockade"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 25 de mayo de 2024

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Artículos de revistas sobre el tema "Coulomb blockade"

1

Kaufman, Igor Kh y Peter V. E. McClintock. "Ionic Coulomb blockade". Nature Materials 15, n.º 8 (22 de julio de 2016): 825–26. http://dx.doi.org/10.1038/nmat4701.

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Kauppinen, J. P. y J. P. Pekola. "Coulomb blockade nanothermometer". Microelectronic Engineering 41-42 (marzo de 1998): 503–6. http://dx.doi.org/10.1016/s0167-9317(98)00117-8.

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Hirvi, K. P., J. P. Kauppinen, A. N. Korotkov, M. A. Paalanen y J. P. Pekola. "Coulomb blockade thermometry". Czechoslovak Journal of Physics 46, S6 (junio de 1996): 3345–52. http://dx.doi.org/10.1007/bf02548151.

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Wang, Miao, Reng-lai Wu, Yabin Yu, Wei-qing Huang y Zheng Ma. "From the Coulomb blockade regime to the Non-Coulomb blockade regime". Physica B: Condensed Matter 454 (diciembre de 2014): 82–85. http://dx.doi.org/10.1016/j.physb.2014.07.061.

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5

Pogosov, Artur, Maxim Budantsev, Andrey Shevyrin, Alexey Plotnikov, Ashat Bakarov y Aleksandr Toropov. "High-Temperature Coulomb Blockade". Siberian Journal of Physics 4, n.º 2 (1 de julio de 2009): 53–57. http://dx.doi.org/10.54362/1818-7919-2009-4-2-53-57.

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The Coulomb blockade effect is studied in a single-electron transistor – quantum dot, separated from source and drain areas by tunnel junctions. Peculiarity of the transistor is that it is made on the basis of semiconducting membrane, separated from the suffer. Separating the transistor from the suffer having high dielectric constant leads to the drastic decrease in the quantum dot capacity С and, therefore, to the increase in the Coulomb gap 2 e C/ . This value is important since it determines the upper limit of the transistor working temperature. A direct comparison of the Coulomb gaps before and after separating from the suffer shows that it increases from 40 K (in temperature units) for conventional transistor to 150 K for the «suspended» one. High value of the Coulomb gap has made it possible to observe clear diamond-like structure of condactance dependence on the gate and source-drain voltages, specific for the Coulomb blockade, while typical temperature of this kind of measurements on conventional single-electron transistors is about hundreds of millikelvins. An additional blockade effect, different from the conventional Coulomb blockade is observed. The nature of this effect can be connected with additional mechanical degrees of freedom of the transistor (elastic deformations).
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Hahtela, O., E. Mykkänen, A. Kemppinen, M. Meschke, M. Prunnila, D. Gunnarsson, L. Roschier, J. Penttilä y J. Pekola. "Traceable Coulomb blockade thermometry". Metrologia 54, n.º 1 (20 de diciembre de 2016): 69–76. http://dx.doi.org/10.1088/1681-7575/aa4f84.

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Pingue, P., V. Piazza, F. Beltram, I. Farrer, D. A. Ritchie y M. Pepper. "Coulomb blockade directional coupler". Applied Physics Letters 86, n.º 5 (31 de enero de 2005): 052102. http://dx.doi.org/10.1063/1.1857078.

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Xiang, Dao, Jian Wu y Reuven Gordon. "Coulomb Blockade Plasmonic Switch". Nano Letters 17, n.º 4 (20 de marzo de 2017): 2584–88. http://dx.doi.org/10.1021/acs.nanolett.7b00360.

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KUSMARTSEV, F. V. "COULOMB BLOCKADE INDUCED BY MAGNETIC FIELD". Modern Physics Letters B 06, n.º 22 (20 de septiembre de 1992): 1379–89. http://dx.doi.org/10.1142/s0217984992001083.

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We found that a Coulomb blockade can be induced by magnetic field. We illustrated this effect on the example of a ring consisting of two and many Josephson junctions. For the ring with two junctions we present an exact solution. The transition into Coulomb blockade state on a ring transforms into a real Beresinski–Kosterlitz–Thouless phase transition if the ring transforms into a linear array of Josephson junctions, although in latter case the effect of magnetic field disappears. In the state of Coulomb blockade the magnetization may be both diamagnetic and paramagnetic. The Coulomb blockade may also be removed by external magnetic field.
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10

Yuli V., Nazarov. "Coulomb Blockade without Tunnel Junctions". Journal of the Korean Physical Society 34, n.º 92 (1 de abril de 1999): 161. http://dx.doi.org/10.3938/jkps.34.161.

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Tesis sobre el tema "Coulomb blockade"

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Kubala, Björn. "Quantentransport durch Coulomb-Blockade-Systeme". [S.l.] : [s.n.], 2006. http://deposit.ddb.de/cgi-bin/dokserv?idn=982839146.

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Ali, Danish. "Coulomb blockade in silicon-on-insulator". Thesis, University of Cambridge, 1994. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.321368.

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Petej, Ivan. "Coulomb blockade and quantum conductance in ferromagnetic nanostructures". Thesis, University of Oxford, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.270647.

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Wilson, Dominic Simon. "Scanning tunnelling spectroscopy of superconductors and Coulomb blockade effects". Thesis, University of Cambridge, 1996. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.264499.

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Dovinos, Dimitris. "Charge transport in a Coulomb blockade island under irradiation". Thesis, University of Cambridge, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.619516.

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Johansson, Jan. "Single Charge and Spin Transport in Nanostructures". Doctoral thesis, KTH, Physics, 2003. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-3685.

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Paul, Douglas John. "Single electronics in #delta#-doped silicon germanium". Thesis, University of Cambridge, 1993. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.321519.

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Andersson, Karin. "Coulomb blockade of Cooper pair tunneling in one dimensional Josephson junction arrays". Doctoral thesis, KTH, Physics, 2002. http://urn.kb.se/resolve?urn=urn:nbn:se:kth:diva-3393.

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Stegmann, Philipp [Verfasser] y Jürgen [Akademischer Betreuer] König. "Generalized factorial cumulants applied to Coulomb-blockade systems / Philipp Stegmann ; Betreuer: Jürgen König". Duisburg, 2017. http://d-nb.info/1136863990/34.

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Fühner, Claus. "Magneto-transport investigations on multi-electron quantum dots Coulomb blockade, Kondo effect and Fano regime /". [S.l. : s.n.], 2002. http://deposit.ddb.de/cgi-bin/dokserv?idn=967772753.

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Libros sobre el tema "Coulomb blockade"

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1947-, Grabert Hermann, Devoret Michel H, North Atlantic Treaty Organization. Scientific Affairs Division. y NATO Advanced Study Institute on Single Charge Tunneling (1991 : Les Houches, Haute-Savoie, France), eds. Single charge tunneling: Coulomb blockade phenomena in nanostructures. New York: Plenum Press, 1992.

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2

Devoret, Michel H. y Hermann Grabert. Single Charge Tunneling: Coulomb Blockade Phenomena in Nanostructures. Springer London, Limited, 2013.

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Devoret, Michel H. y Hermann Grabert. Single Charge Tunneling: Coulomb Blockade Phenomena In Nanostructures. Springer, 2014.

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(Editor), Hermann Grabert y Michel H. Devoret (Editor), eds. Single Charge Tunneling: Coulomb Blockade Phenomena in Nanostructures (NATO Science Series: B:). Springer, 1992.

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5

Sergeenkov, Sergei. 2D arrays of Josephson nanocontacts and nanogranular superconductors. Editado por A. V. Narlikar y Y. Y. Fu. Oxford University Press, 2017. http://dx.doi.org/10.1093/oxfordhb/9780199533046.013.21.

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This article examines many novel effects related to the magnetic, electric, elastic and transport properties of Josephson nanocontacts and nanogranular superconductors using a realistic model of two-dimensional Josephson junction arrays. The arrays were created by a 2D network of twin-boundary dislocations with strain fields acting as an insulating barrier between hole-rich domains in underdoped crystals. The article first describes a model of nanoscopic Josephson junction arrays before discussing some interesting phenomena, including chemomagnetism and magnetoelectricity, electric analog of the ‘fishtail‘ anomaly and field-tuned weakening of the chemically induced Coulomb blockade, a giant enhancement of the non-linear thermal conductivity in 2D arrays, and thermal expansion of a singleJosephson contact.
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6

Tiwari, Sandip. Phenomena and devices at the quantum scale and the mesoscale. Oxford University Press, 2017. http://dx.doi.org/10.1093/oso/9780198759874.003.0003.

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Unique nanoscale phenomena arise in quantum and mesoscale properties and there are additional intriguing twists from effects that are classical in origin. In this chapter, these are brought forth through an exploration of quantum computation with the important notions of superposition, entanglement, non-locality, cryptography and secure communication. The quantum mesoscale and implications of nonlocality of potential are discussed through Aharonov-Bohm effect, the quantum Hall effect in its various forms including spin, and these are unified through a topological discussion. Single electron effect as a classical phenomenon with Coulomb blockade including in multiple dot systems where charge stability diagrams may be drawn as phase diagram is discussed, and is also extended to explore the even-odd and Kondo consequences for quantum-dot transport. This brings up the self-energy discussion important to nanoscale device understanding.
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Capítulos de libros sobre el tema "Coulomb blockade"

1

Kawabata, A. "Coulomb Blockade". En Mesoscopic Physics and Electronics, 31–43. Berlin, Heidelberg: Springer Berlin Heidelberg, 1998. http://dx.doi.org/10.1007/978-3-642-71976-9_6.

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Khademi, Ali, Dao Xiang y Reuven Gordon. "Coulomb Blockade Plasmonic Switch". En 21st Century Nanoscience – A Handbook, 15–1. Boca Raton, Florida : CRC Press, [2020]: CRC Press, 2020. http://dx.doi.org/10.1201/9780429351617-15.

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Wharam, D. A. y T. Heinzel. "Coulomb Blockade in Quantum Dots". En Quantum Dynamics of Submicron Structures, 311–25. Dordrecht: Springer Netherlands, 1995. http://dx.doi.org/10.1007/978-94-011-0019-9_25.

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Matveev, K. A. "Quantum Smearing of Coulomb Blockade". En Quantum Mesoscopic Phenomena and Mesoscopic Devices in Microelectronics, 129–43. Dordrecht: Springer Netherlands, 2000. http://dx.doi.org/10.1007/978-94-011-4327-1_9.

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5

Van Houten, H., C. W. J. Beenakker y A. A. M. Staring. "Coulomb-Blockade Oscillations in Semiconductor Nanostructures". En NATO ASI Series, 167–216. Boston, MA: Springer US, 1992. http://dx.doi.org/10.1007/978-1-4757-2166-9_5.

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Ryndyk, Dmitry A. "Electron-Electron Interaction and Coulomb Blockade". En Springer Series in Solid-State Sciences, 123–47. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-24088-6_5.

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Abusch-Magder, David, M. A. Kastner, C. L. Dennis, W. F. Dinatale, T. M. Lyszczarz, D. C. Shaver y P. M. Mankiewich. "Coulomb Blockade in a Silicon Mosset". En Quantum Transport in Semiconductor Submicron Structures, 251–60. Dordrecht: Springer Netherlands, 1996. http://dx.doi.org/10.1007/978-94-009-1760-6_12.

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Akai-Kasaya, Megumi. "Coulomb-Blockade in Low-Dimensional Organic Conductors". En Molecular Architectonics, 111–34. Cham: Springer International Publishing, 2017. http://dx.doi.org/10.1007/978-3-319-57096-9_6.

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Beenakker, C. W. J., H. van Houten y A. A. M. Staring. "Coulomb Blockade of the Aharonov-Bohm Effect". En Granular Nanoelectronics, 359–70. Boston, MA: Springer US, 1991. http://dx.doi.org/10.1007/978-1-4899-3689-9_23.

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Kim, Jungsang, Seema Somani y Yoshihisa Yamamoto. "Coulomb Blockade Effect in Mesoscopic p-n Junctions". En Nonclassical Light from Semiconductor Lasers and LEDs, 137–54. Berlin, Heidelberg: Springer Berlin Heidelberg, 2001. http://dx.doi.org/10.1007/978-3-642-56814-5_10.

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Actas de conferencias sobre el tema "Coulomb blockade"

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Shekhter, R. I., L. Y. Gorelik, A. Isacsson, Y. M. Galperin y M. Jonson. "Nanoelectromechanics of Coulomb Blockade Nanostructures". En Proceedings of the Nobel Jubilee Symposium. CO-PUBLISHED WITH PHYSICA SCRIPTA AND THE ROYAL SWEDISH ACADEMY OF SCIENCES, 2003. http://dx.doi.org/10.1142/9789812791269_0003.

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Webb, R. A., V. Chandrasekhar y Z. Ovadyahu. "Coulomb blockade effects in disordered wires". En Molecular electronics—Science and Technology. AIP, 1992. http://dx.doi.org/10.1063/1.42660.

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Fraboulet, D., X. Jehl, D. Mariolle, C. Le Royer, G. Le Carval, P. Scheiblin, P. Rivallin et al. "Coulomb Blockade in Thin SOI Nanodevices". En 32nd European Solid-State Device Research Conference. IEEE, 2002. http://dx.doi.org/10.1109/essderc.2002.194951.

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Kaufman, I. Kh, W. Gibby, D. G. Luchinsky, P. V. E. McClintock y R. S. Eisenberg. "Coulomb blockade oscillations in biological ion channels". En 2015 International Conference on Noise and Fluctuations (ICNF). IEEE, 2015. http://dx.doi.org/10.1109/icnf.2015.7288558.

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Chen, I. H., C. C. Wang y P. W. Li. "Designer Ge quantum dots Coulomb blockade thermometry". En 2014 International Symposium on VLSI Technology, Systems and Application (VLSI-TSA). IEEE, 2014. http://dx.doi.org/10.1109/vlsi-tsa.2014.6839670.

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Barua, Sourabh, Rohan Poojary y K. P. Rajeev. "Observation of Coulomb blockade and Coulomb staircase in a lateral metal nanostructure". En SOLID STATE PHYSICS: PROCEEDINGS OF THE 57TH DAE SOLID STATE PHYSICS SYMPOSIUM 2012. AIP, 2013. http://dx.doi.org/10.1063/1.4791038.

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Hahtela, O. M., M. Meschke, A. Savin, D. Gunnarsson, M. Prunnila, J. S. Penttilä, L. Roschier, M. Heinonen, A. Manninen y J. P. Pekola. "Investigation of uncertainty components in Coulomb blockade thermometry". En TEMPERATURE: ITS MEASUREMENT AND CONTROL IN SCIENCE AND INDUSTRY, VOLUME 8: Proceedings of the Ninth International Temperature Symposium. AIP, 2013. http://dx.doi.org/10.1063/1.4819529.

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AMAHA, SHINICHI, TSUYOSHI HATANO, SATOSHI SASAKI, TOSHIHIRO KUBO, YASUHIRO TOKURA y SEIGO TARUCHA. "COULOMB BLOCKADE PROPERTIES OF 4-GATED QUANTUM DOT". En Proceedings of the International Symposium. WORLD SCIENTIFIC, 2008. http://dx.doi.org/10.1142/9789812814623_0030.

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van Kempen, H., R. T. M. Smokers y P. J. M. vanBentum. "The Coulomb Blockade in STM-type Tunnel Junctions". En Scanned probe microscopy. AIP, 1991. http://dx.doi.org/10.1063/1.41428.

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Hahtela, O. M., A. Kemppinen, J. Lehtinen, A. J. Manninen, E. Mykkanen, M. Prunnila, N. Yurttagul et al. "Coulomb Blockade Thermometry on a Wide Temperature Range". En 2020 Conference on Precision Electromagnetic Measurements (CPEM 2020). IEEE, 2020. http://dx.doi.org/10.1109/cpem49742.2020.9191726.

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Informes sobre el tema "Coulomb blockade"

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Ai, Nan, Onejae Sul, Milan Begliarbekov, Qiang Song, Kitu Kumar, Daniel S. Choi, Eui-Hyeok Yang y Stefan Strauf. Transconductance and Coulomb Blockade Properties of In-Plane Grown Carbon Nanotube Field Effect Transistors. Fort Belvoir, VA: Defense Technical Information Center, abril de 2010. http://dx.doi.org/10.21236/ada524117.

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Cleland, A. N. Macroscopic quantum tunneling in Josephson tunnel junctions and Coulomb blockade in single small tunnel junctions. Office of Scientific and Technical Information (OSTI), abril de 1991. http://dx.doi.org/10.2172/5511727.

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van der Heijden, Joost. Optimizing electron temperature in quantum dot devices. QDevil ApS, marzo de 2021. http://dx.doi.org/10.53109/ypdh3824.

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The performance and accuracy of quantum electronics is substantially degraded when the temperature of the electrons in the devices is too high. The electron temperature can be reduced with appropriate thermal anchoring and by filtering both the low frequency and radio frequency noise. Ultimately, for high performance filters the electron temperature can approach the phonon temperature (as measured by resistive thermometers) in a dilution refrigerator. In this application note, the method for measuring the electron temperature in a typical quantum electronics device using Coulomb blockade thermometry is described. This technique is applied to find the readily achievable electron temperature in the device when using the QFilter provided by QDevil. With our thermometry measurements, using a single GaAs/AlGaAs quantum dot in an optimized experimental setup, we determined an electron temperature of 28 ± 2 milli-Kelvin for a dilution refrigerator base temperature of 18 milli-Kelvin.
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