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Long-lived Nuclear Spin Order: Theory and Applications

Long-lived Nuclear Spin Order: Theory and Applications

9781788015684
1 001,70 zł
901,53 zł Zniżka 100,17 zł Brutto
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Opis
The idea that a long-lived form of spin order, namely singlet order, can be prepared from nuclear spin magnetisation first emerged in 2004. The unusual properties of singlet order-its long lifetime and the fact that it is NMR silent but interconvertible into other forms of NMR active order—make it a smart tag that can be used to store information for a long time or through distant space points. It is not unexpected then, that since its first appearance, this idea has caught the attention of research groups interested in exploiting this form of order in different fields of research spanning from biology to materials science and from hyperpolarisation to quantum computing. This first book on the subject gives a thorough description of the various aspects that affect the development of the topic and details the interdisciplinary applications. The book starts with a section dedicated to the basic theories of long-lived spin order and then proceeds with a description of the state-of-the-art experimental techniques developed to manipulate singlet order. It then concludes by covering the generalization of the concept of singlet order by introducing and discussing other forms of long-lived spin order.
Szczegóły produktu
82538
9781788015684
9781788015684

Opis

Rok wydania
2020
Numer wydania
1
Oprawa
twarda
Liczba stron
462
Wymiary (mm)
156.00 x 234.00
  • Long-Lived States in Nuclear Magnetic Resonance:: An Overview; Symmetry and Long-lived Spin Order; Relaxation Theory of Long-lived Spin Order; Design and Synthesis of Molecules Supporting Long Lived Spin Order; Manipulation of Singlet Order by Field-cycling; Manipulating Singlet Order by Chemical Reactions; Manipulating Spin Order by J-synchronised Echo Schemes; Manipulating Singlet Order by Spin-Lock Induced Crossing; Manipulating Singlet Order with Adiabatic Pulses; Filters for Long-lived Spin Order; Converting Spin Order from Singlet to Heteronuclear Magnetisation; Long-Lived States-Based Determination of Ligand Affinity for a Target Protein; Applications of Singlet Order to the Study of Biomolecules and Molecular Interactions; Singlet-assisted Exchange NMR Spectroscopy; Singlet-Assisted Diffusion NMR; Q-SPACE Singlet NMR; Long-Lived Singlet State:: From NMR Quantum Information Perspectives; Singlet Spin Order Originating from Para-H2; Long-lived Spin Order Coupled to SABRE; Long-Lived Coherences; Long-lived Spin Order in Methyl Groups; Long-lived Spin Order in CH2D Groups; Singlet Order in Heteronuclear Spin Systems
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