04943nam 2200577 a 450 991045078080332120200520144314.0981-277-840-3(CKB)1000000000407622(StDuBDS)AH24684815(SSID)ssj0000211777(PQKBManifestationID)11174594(PQKBTitleCode)TC0000211777(PQKBWorkID)10135823(PQKB)11175594(MiAaPQ)EBC1681264(WSP)00004783(Au-PeEL)EBL1681264(CaPaEBR)ebr10201251(CaONFJC)MIL505463(OCoLC)879025085(EXLCZ)99100000000040762220020722d2002 uy 0engur|||||||||||txtccrNonadiabatic transition[electronic resource] concepts, basic theories and applications /by Hiroki NakamuraRiver Edge, NJ World Scientificc20021 online resource (xi, 376 p. ) illBibliographic Level Mode of Issuance: Monograph981-02-4719-2 Includes bibliographical references (p. 361-370) and index.ch. 1. Introduction: what is "nonadiabatic transition"? -- ch. 2. Multi-disciplinarity. 2.1. Physics. 2.2. Chemistry. 2.3. Biology. 2.4. Economics -- ch. 3. Historical survey of theoretical studies. 3.1. Landau-Zener-Stueckelberg theory. 3.2. Rosen-Zener-Demkov theory. 3.3. Nikitin's exponential model. 3.4. Nonadiabatic transition due to Coriolis coupling and dynamical state representation -- ch. 4. Background mathematics. 4.1. Wentzel-Kramers-Brillouin semiclassical theory. 4.2. Stokes phenomenon -- ch. 5. Basic two-state theory for time-independent processes. 5.1. Exact solutions of the linear curve crossing problems. 5.2. Complete semiclassical solutions of general curve crossing problems. 5.3. Non-curve-crossing case. 5.4. Exponential potential model. 5.5. Mathematical implications -- ch. 6. Basic two-state theory for time-dependent processes. 6.1. Exact solution of quadratic potential problem. 6.2. Semiclassical solution in general case. 6.3. Other exactly solvable models -- ch. 7. Two-state problems. 7.1. Diagrammatic technique. 7.2. Inelastic scattering. 7.3. Elastic scattering with resonances and predissociation. 7.4. Perturbed bound states. 7.5. Time-dependent periodic crossing problems -- ch. 8. Effects of dissipation and fluctuation -- ch. 9. Multi-channel problems. 9.1. Exactly solvable models. 9.2. Semiclassical theory of time-independent multi-channel problems. 9.3. Time-dependent problems -- ch. 10. Multi-dimensional problems. 10.1. Classification of surface crossing. 10.2. Reduction to one-dimensional multi-channel problem. 10.3. Semiclassical propagation method -- ch. 11. Complete reflection and bound states in the continuum. 11.1. One NT-type crossing case. 11.2. Diabatically avoided crossing (DAC) case. 11.3. Two NT-type crossings case -- ch. 12. New mechanism of molecular switching. 12.1. Basic idea. 12.2. One-dimensional model. 12.3. Two-dimensional model. 12.4. Numerical examples -- ch. 13. Control of nonadiabatic processes by an external field. 13.1. Control of nonadiabatic transitions by periodically sweeping external field. 13.2. Basic theory. 13.3. Numerical examples. 13.4. Laser control of photodissociation with use of the complete reflection phenomenon -- ch. 14. Conclusions: future perspectives.An exploration of the concepts, basic theories and applications of nonadiabatic transition. Nonadiabatic transition is a multidisciplinary concept and phenomenon, constituting a fundamental mechanism of state and phase changes in various dynamical processes of physics, chemistry and biology.Nonadiabatic transition is a highly multidisciplinary concept and phenomenon, constituting a fundamental mechanism of state and phase changes in various dynamical processes of physics, chemistry and biology, such as molecular dynamics, energy relaxation, chemical reaction, and electron and proton transfer. Control of molecular processes by laser fields is also an example of time-dependent nonadiabatic transition. Thus, nonadiabatic transition represents one of the very basic mechanisms of the mutability of the world. This work has been written because the complete analytical solutions to the basic problem have recently been formulated by the author.Charge exchangePhase transformations (Statistical physics)Electronic books.Charge exchange.Phase transformations (Statistical physics)530.4/74Nakamura Hiroki882209MiAaPQMiAaPQMiAaPQBOOK9910450780803321Nonadiabatic transition1970552UNINA02360nam 2200409 n 450 99639280440331620200824121727.0(CKB)4940000000114172(EEBO)2248547695(UnM)ocm99890520e(UnM)99890520(EXLCZ)99494000000011417219880826d1665 uh engurbn||||a|bb|At the court at White-hall the 22th of March, 1664. Present the Kings Most Excellent Majesty[electronic resource] His Royal Highness the Duke of York. His highness Prince Rupert. Lord Archbishop of Canterbury. Lord Chancellour. Lord Treasurer.... Sir Edward Nicholas. Whereas His Majesty by and with the advice of his Privy Council hath dispensed for some time with certain clauses of several acts, concerning trade, shipping and navigation, by an order of this boord of the sixth instant: which order in several clauses thereof extends, but was not intended to extend to Ireland: his Majesty this day in council hath thought fit by the advice of the boord, to direct the revoking the word Ireland in the said order, and the reprinting the same so amendedLondon, Printed by John Bill and Christopher Barker, Printers to the Kings most Excellent Majesty,1664 [i.e. 1665]1 sheet ([1] p.)Initial; Steele notation: Arms 60 That Act sur- .Suspending the Navigation Acts for ships and goods imported or exported to Norway and the Baltic; and to Germany, Flanders, or France if the merchants are natural-born subjects. -- Steele.Dated according to Lady Day dating.Reproduction of original in the British Library.eebo-0018ShippingEnglandEarly works to 1800Great BritainHistoryCharles II, 1660-1685Early works to 1800BroadsidesEnglandLondon17th century.rbgenrShippingCharlesKing of England,1630-1685.793293England and Wales.Privy Council.Cu-RivESCu-RivESCStRLINCu-RivESBOOK996392804403316At the court at White-hall the 22th of March, 1664, present the Kings Most Excellent Majesty .2351400UNISA