Pregled bibliografske jedinice broj: 297440
Anharmonic and Quantum Effects in KDP-Type Ferroelectrics: Modified Strong Dipole-Proton Coupling Model
Anharmonic and Quantum Effects in KDP-Type Ferroelectrics: Modified Strong Dipole-Proton Coupling Model // Ferro- and Antiferroelectricity: Order/Disorder Cersus Displacive / Dalal, Naresh ; Bussmann-Holder, Annette ; Blinc, Robert (ur.).
Heidelberg: Springer, 2007. str. 149-198
CROSBI ID: 297440 Za ispravke kontaktirajte CROSBI podršku putem web obrasca
Naslov
Anharmonic and Quantum Effects in KDP-Type
Ferroelectrics: Modified Strong Dipole-Proton
Coupling Model
Autori
Merunka, Dalibor ; Rakvin, Boris
Vrsta, podvrsta i kategorija rada
Poglavlja u knjigama, znanstveni
Knjiga
Ferro- and Antiferroelectricity: Order/Disorder Cersus Displacive
Urednik/ci
Dalal, Naresh ; Bussmann-Holder, Annette ; Blinc, Robert
Izdavač
Springer
Grad
Heidelberg
Godina
2007
Raspon stranica
149-198
ISBN
9783540496021
Ključne riječi
anharmonic effects ; displacive phase transition ; isotope effects ; KDP-type ferroelectrics ; order-disorder phase transition
Sažetak
Anharmonic and quantum effects caused by hydrogen bonds appear strongly in ferroelectric crystals of the KH2PO4- or KDP-type. Both effects are closely related to the long-standing and still unresolved questions about the ferroelectric phase transition in these crystals: that of the type of phase transition, and that of the origin of strong isotope effects of proton-deuteron replacement. In this chapter, the most relevant experimental studies devoted to these problems are reviewed. The proton-tunneling model, as widely accepted model of the phase transition in these crystals, was questioned in the 1980s. A development of the alternative model, modified strong dipole-proton coupling (MSDPC) model, is presented. The model assumes that quantum protons in KDP have higher characteristic frequencies than the heavy-ion sublattice represented by the system of three- dimensional dipoles. Therefore, protons being in a ground state adiabatically follow dipole dynamics, as opposed to the proton-tunneling model. Proton tunneling is absent in the model, and ferroelectric ordering and anharmonicities in the dipole system are caused by the proton ground- state energy. Different ground-state energies of protons and deuterons cause isotope effects and make deuterated systems more anharmonic, so that the phase transition in deuterated crystal is predicted as more of an order– disorder type than in non-deuterated crystal. Successes and shortcomings of the model in explaining experimental results are commented upon.
Izvorni jezik
Engleski
Znanstvena područja
Fizika
POVEZANOST RADA
Projekti:
MZOS-098-0982915-2939 - Molekulska struktura i dinamika sustava s paramagnetskim česticama (Ilakovac-Kveder, Marina, MZOS ) ( CroRIS)
Ustanove:
Institut "Ruđer Bošković", Zagreb
