00846nam a22002413i 450099100062360970753620040116100458.0040220s1973 it |||||||||||||||||ita b12645904-39ule_instARCHE-064425ExLDip.to Scienze pedagogicheitaA.t.i. Arché s.c.r.l. Pandora Sicilia s.r.l.853.91Venturi, Claudio51088La ballata dei l.d.t. /Claudio VenturiRimini :Guaraldi,[1973]198 p. ;22 cmFC.b1264590402-04-1417-03-04991000623609707536LE022 MP 64 H 1012022000026246le022-E0.00-l- 00000.i1315038817-03-04Ballata dei l.d.t274458UNISALENTOle02217-03-04ma -itait 3103753nam 2200889z- 450 991055761670332120220321(CKB)5400000000045234(oapen)https://directory.doabooks.org/handle/20.500.12854/79600(oapen)doab79600(EXLCZ)99540000000004523420202203d2022 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierSymmetry and Mesoscopic PhysicsBaselMDPI - Multidisciplinary Digital Publishing Institute20221 online resource (244 p.)3-0365-2759-1 3-0365-2758-3 Symmetry is one of the most important notions in natural science; it lies at the heart of fundamental laws of nature and serves as an important tool for understanding the properties of complex systems, both classical and quantum. Another trend, which has in recent years undergone intensive development, is mesoscopic physics. This branch of physics also combines classical and quantum ideas and methods. Two main directions can be distinguished in mesoscopic physics. One is the study of finite quantum systems of mesoscopic sizes. Such systems, which are between the atomic and macroscopic scales, exhibit a variety of novel phenomena and find numerous applications in creating modern electronic and spintronic devices. At the same time, the behavior of large systems can be influenced by mesoscopic effects, which provides another direction within the framework of mesoscopic physics. The aim of the present book is to emphasize the phenomena that lie at the crossroads between the concept of symmetry and mesoscopic physics.Research & information: generalbicsscangular-momentum varianceasymptotic symmetry breakingbinary Bose-Einstein condensateBose systemsBose-Einstein condensatesBose-Einstein condensatesBose-Einstein condensationdensitydimension spectradynamical chaosfield-theoretic renormalization groupform factorfractalsgrapheneground statesharmonic-interaction modelJosephson oscillationsKramers degeneracyMCTDHBmetal-insulator transitionmodulational instabilitymomentum varianceMonte Carlo simulationspair distance distribution functionparticle fluctuationsparticle-hole symmetryperturbation theoryposition variancequantum dotquantum dropletrandom gap modelripplesmall-angle scatteringspin-orbit interactionspontaneous symmetry breakingstability of Bose systemsstochastic dynamicsstructural propertiesstructure factorsymmetrysymmetry breakingThomas-Fermi approximationtight-binding approachtransportResearch & information: generalYukalov Vyacheslavedt1304469Nazmitdinov Rashid GedtYukalov VyacheslavothNazmitdinov Rashid GothBOOK9910557616703321Symmetry and Mesoscopic Physics3027453UNINA