Complex Phenomena in Nanoscale SystemsGiulio Casati, Davron Matrasulov Nanoscale physics has become one of the rapidly developing areas of contemporary physics because of its direct relevance to newly emerging area, nanotechnologies. Nanoscale devices and quantum functional materials are usually constructed based on the results of fundamental studies on nanoscale physics. Therefore studying physical phenomena in nanosized systems is of importance for progressive development of nanotechnologies. In this context study of complex phenomena in such systems and using them for controlling purposes is of great practical importance. Namely, such studies are brought together in this book, which contains 27 papers on various aspects of nanoscale physics and nonlinear dynamics. |
Contents
Hentschel and T Y KwonOptical Microcavities of Spiral | 15 |
S Schmidt and Y AlhassidMesoscopic Interplay | 25 |
Calvo H M Pastawski and R A JalabertTimeReversal | 36 |
O Giraud B Georgeot and J MartinEntanglement | 51 |
Robnik and V G RomanovskiExact Analysis of Adiabatic | 64 |
P Schmelcher F Lenz D Matrasulov Z A Sobirov | 81 |
UllmoScreening of the Coulomb Interaction in a Generic | 97 |
T S Monteiro A Rancon and J RuostekoskiKicked Bose | 108 |
B Kubala M Ludwig and F MarquardtOptomechanics | 153 |
A Rakhimov and Z NarzikulovHohenbergMartin Dilemma | 165 |
Sh Masuda and K NakamuraFastForward Problem | 183 |
U R Salomov D Matrasulov and N E IskandarovNonlinear | 197 |
Z A Sobirov D Matrasulov Sh Ataev and H YusupovTime | 215 |
A E AtamuratovModelling of Quantum Wires in the Interface | 229 |
H TutuStochastic LandauLifshitzGilbert Equation with Delayed | 245 |
S K Avazbaev and D DelandeExtraction of Partial Waves | 259 |
A F SadreevVortices in the Ground State of Spinor BoseEinstein | 121 |
K NakamuraNonlinear Dynamics of Wave Packets and Vortices | 137 |
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adiabatic Alhassid amplitude analytical approximation atoms average energy behavior billiard Bose Bose–Einstein condensate boundary conditions calculated cantilever Casati cavity chaos classical Complex Phenomena correlations corresponding curve density dependence distribution driven effects electrons ensemble entanglement entropy excitons exponential fast-forward ferromagnetic Figure frequency Gaussian Hamiltonian Hentschel initial instability instanton integral interaction kicked Lett linear magnetic field Matrasulov eds matrix mesoscopic microcavities modes momentum motion Nanoscale Systems nanowire nonlinear dynamics numerical obtained optical optical microcavity optomechanical order parameter particle perturbation phase space Phenomena in Nanoscale phonon Phys Physics and Biophysics potential quantum chaos quantum dots qubits random vectors regime resonances Robnik and Romanovski Schr¨odinger equation Science for Peace Science+Business Media B.V. Security Series simulations solitons solution spin Springer Science+Business Media static studied superconducting time-dependent trap tunneling Uzbekistan values velocity vortex phase vortices wave function wave packet