Supraleitende Quanten-Interferenz-Filter Josephson-Kontakt-Netzwerke mit eindeutiger Spannungsantwortfunktion /

Häußler, Christoph.

Unknown Date

Universiẗat, Diss., 2002--Tübingen.

Optimization of coupling strategies for superconducting qubits

Hutter, Carsten

January 2007

Zugl.: Karlsruhe, Univ., Diss., 2007

Untersuchung präparativer Einflüsse auf die Mikrostruktur und die Transporteigenschaften von YBa2Cu3O7-d-Stufenkantenkontakten

Hill, Frank.

Unknown Date

Universiẗat, Diss., 2000--Wuppertal.

Hochfrequenzverhalten gekoppelter und ungekoppelter Josephson-Kontakte auf der Basis von Hochtemperatur-Supraleitern

Scherbel, Jens.

Unknown Date

Universiẗat, Diss., 2001--Jena.

Physikalische und technologische Limitierungen von SNS-Josephson-Kontakten für hochintegrierbare Tieftemperatur-Supraleiterschaltungen

Hagedorn, Daniel.

Unknown Date

Universiẗat, Diss., 2003--Jena.

Abbildung von Flussquanten in YBa2Cu3O7-x SQUIDs und Josephsonströmen in YBa2Cu3O7-x-Niob Kontakten

Straub, Rainer.

Unknown Date

Universiẗat, Diss., 2003--Tübingen.

Abbildung von Flussquanten in YBa 2 Cu 3O7 -x SQUIDs und Josephsonströmen in YBa 2 Cu 3O7-x-Niob Kontakten

Straub, Rainer,

January 2003

Tübingen, Universiẗat, Diss., 2003.

Ratscheneffekte in supraleitenden Quanteninterferometern

Sterck, Albert.

January 2005

Tübingen, Univ., Diss., 2005.

Quantum breathers in small networks: Dynamics, tunneling, correlations, and application to Josephson cells

Pinto Rengifo, Ricardo Alberto

16 July 2008

We address the excitation of quantum breathers in small nonlinear networks of two and three degrees of freedom, in order to study their properties. The invariance under permutation of two sites of these networks substitutes the translation invariance that is present in nonlinear lattices, where (classical) discrete breathers are time periodic space localized solutions of the underlying classical equations of motion. We do a systematic analysis of the spectrum and eigenstates of such small systems, characterizing quantum breather states by their tunnelling rate (energy splitting), site correlations, fluctuations of the number of quanta, and entanglement. We observe how these properties are reflected in the time evolution of initially localized excitations. Quantum breathers manifest as pairs of nearly degenerate eigenstates that show strong site correlation of quanta, and are characterized by a strong excitation of quanta on one site of the network which perform slow coherent tunnelling motion from one site to another. They enhance the fluctuations of quanta, and are the least entangled states among the group of eigenstates in the same range of the energy spectrum. We use our analysis methods to consider the excitation of quantum breathers in a cell of two coupled Josephson junctions, and study their properties as compared with those in the previous cases. We describe how quantum breathers could be experimentally observed by employing the already developed techniques for quantum information processing with Josephson junctions.

Quantum breathers

nonlinear lattice

Josephson junction

localization

quantum information.

Quantenkanal

nicht lineares Netz

Josephson-Kontakt

Tunneleffekt

ddc:530

rvk:UP 1410

Quantum breathers in small networks: Dynamics, tunneling, correlations, and application to Josephson cells

Pinto Rengifo, Ricardo Alberto

20 June 2008

We address the excitation of quantum breathers in small nonlinear networks of two and three degrees of freedom, in order to study their properties. The invariance under permutation of two sites of these networks substitutes the translation invariance that is present in nonlinear lattices, where (classical) discrete breathers are time periodic space localized solutions of the underlying classical equations of motion. We do a systematic analysis of the spectrum and eigenstates of such small systems, characterizing quantum breather states by their tunnelling rate (energy splitting), site correlations, fluctuations of the number of quanta, and entanglement. We observe how these properties are reflected in the time evolution of initially localized excitations. Quantum breathers manifest as pairs of nearly degenerate eigenstates that show strong site correlation of quanta, and are characterized by a strong excitation of quanta on one site of the network which perform slow coherent tunnelling motion from one site to another. They enhance the fluctuations of quanta, and are the least entangled states among the group of eigenstates in the same range of the energy spectrum. We use our analysis methods to consider the excitation of quantum breathers in a cell of two coupled Josephson junctions, and study their properties as compared with those in the previous cases. We describe how quantum breathers could be experimentally observed by employing the already developed techniques for quantum information processing with Josephson junctions.

info:eu-repo/classification/ddc/530

ddc:530