Oxford Index Search Results

You are looking at 1-8 of 8 items for:

sensitive x Condensed Matter Physics x Physics x clear all

Refine by type

Refine by product

 

sensitive

Overview page. Subjects: Medicine and Health.

adj. possessing the ability to respond to a stimulus. The cells of the retina, for example, are sensitive to the stimulus of light and respond by sending nerve impulses to the...

See overview in Oxford Index

Concepts of spatial resolution

Bernhard Blümich.

in NMR Imaging of Materials

January 2003; p ublished online January 2010 .

Chapter. Subjects: Condensed Matter Physics. 19679 words.

Various methods have been proposed for generation of images by nuclear magnetic resonance (NMR). However, only the variants of the Fourier technique are used on a routine basis in clinical...

Go to »  abstract

Imaging molecules: radiation damage

John C. H. Spence.

in High-Resolution Electron Microscopy

September 2013; p ublished online January 2014 .

Chapter. Subjects: Condensed Matter Physics. 23251 words.

Chapter 6 is devoted to the imaging of radiation-sensitive materials, such as organic material, at high resolution using electron microscopy. The methods of single-particle imaging in...

Go to »  abstract

Measurements of the Casimir―Polder Force

M. Bordag, G. L. Klimchitskaya, U. Mohideen and V. M. Mostepanenko.

in Advances in the Casimir Effect

May 2009; p ublished online September 2009 .

Chapter. Subjects: Condensed Matter Physics. 5213 words.

Modern laboratory techniques make possible the investigation of the role of the Casimir–Polder force in experiments on Bose–Einstein condensation and quantum reflection. Thus, it has been...

Go to »  abstract

Sources and forms of graphene

E. L. Wolf.

in Graphene

November 2013; p ublished online January 2014 .

Chapter. Subjects: Condensed Matter Physics. 13806 words.

Micro-mechanical exfoliation of single graphene sheets from bulk mineral graphite opened the way to reliable measurements of graphene monolayer properties. The substrate supporting the...

Go to »  abstract

Introduction to Magnetism and Magnetic Materials

Kannan M. Krishnan.

in Fundamentals and Applications of Magnetic Materials

August 2016; p ublished online December 2016 .

Chapter. Subjects: Condensed Matter Physics. 17468 words.

We introduce the family of magnetic materials—diamagnets, paramagnets, ferromagnets, anti-ferromagnets, and ferrimagnets—and their response to magnetic fields. Beginning with a brief...

Go to »  abstract

Electron donor–acceptor complexes

Arne Haaland.

in Molecules and Models

March 2008; p ublished online May 2008 .

Chapter. Subjects: Condensed Matter Physics. 5654 words.

The chapter opens with a comparison of the bond distances, bond energies, and electric dipole moments of ethane and amine borane. Minimum energy rupture of the covalent CC bond in ethane...

Go to »  abstract

Anisotropy of spin-polarized transport in a ferromagnet/d-wave superconductor bilayer: Role of the small exchange field

Zorica Popović and Predrag Miranović.

in Progress of Theoretical and Experimental Physics

P ublished online April 2018 .

Journal Article. Subjects: Condensed Matter Physics. 4692 words.

Abstract

The current–voltage characteristic of a ferromagnet/[math]-wave superconductor (FD) bilayer is calculated as a function of the orientation of the...

Go to »  full text: open access

Fundamentals and Applications of Magnetic Materials

Kannan M. Krishnan.

August 2016; p ublished online December 2016 .

Book. Subjects: Condensed Matter Physics. 816 pages.

This book provides a comprehensive discussion of magnetism, magnetic materials, and related applications. The logical train of thought progresses, in four parts, from physics of magnetism...

Go to »  abstract