By Sushil K. Misra
Filling the space for a scientific, authoritative, and updated overview of this state-of-the-art strategy, this publication covers either high and low frequency EPR, emphasizing the significance of adopting the multifrequency method of examine paramagnetic structures in complete aspect through the use of the EPR procedure. In so doing, it discusses not just the underlying idea and functions, but additionally all fresh advances -- with a last part dedicated to destiny views
By Peter Brusov, Pavel Brusov
This can be the 1st monograph that strives to offer a whole and special description of the collective modes (CMs) in unconventional superfluids and superconductors (UCSF&SC). utilizing the main robust approach to glossy theoretical physics -- the trail (functional) essential strategy -- authors construct the 3- and two-dimensional versions for s-, p- and d-wave pairing in impartial in addition to in charged Fermi platforms, versions of superfluid Bose structures and Fermi Bose combos. inside those types they examine the collective houses of such structures as superfluid 3He, superfluid 4He, superfluid 3He-4He combinations, superfluid 3He-films, superfluid 3He and superfluid 3He-4He combinations in aerogel, extreme temperature superconductors, heavy-fermion superconductors, superconducting movies and so forth. Authors examine their effects with experimental information and are expecting loads of new experiments on CMs learn. This opens for experimentalists new chances for seek of recent fascinating positive aspects of collective habit of UCSF&SC. The monograph creates the hot clinical path -- the spectroscopy of collective modes in unconventional superfluids and superconductors. it is going to be precious for either theorists and experimentalists, learning superfluids and superconductors, low temperature physics, condensed topic physics, good kingdom physics. it may be utilized by graduate scholars focusing on an analogous parts.
By Wonbong Choi, Jo-won Lee
Because the past due twentieth century, graphene—a one-atom-thick planar sheet of sp2-bonded carbon atoms densely packed in a honeycomb crystal lattice—has garnered considerable cognizance as a possible next-generation digital fabric because of its unparalleled homes. those houses contain excessive present density, ballistic shipping, chemical inertness, excessive thermal conductivity, optical transmittance, and large hydrophobicity at nanometer scale. unlike learn on its first-class digital and optoelectronic homes, examine at the syntheses of a unmarried sheet of graphene for commercial purposes is in its nascent levels. Graphene: Synthesis and functions experiences the development and destiny instructions of graphene learn within the components of synthesis and homes, and explores purposes, similar to electronics, warmth dissipation, box emission, sensors, composites, and effort.
By Eugene D. Shchukin, Alexandr V. Pertsov, Elena A. Amelina and Andrei S. Zelenev (Eds.)
This publication covers significant parts of recent Colloid and floor technological know-how (in a few international locations often known as Colloid Chemistry) that is a huge region on the intersection of Chemistry, Physics, Biology and fabric technological know-how investigating the disperse kingdom of topic and floor phenomena in disperse platforms. The e-book arises of and summarizes the growth made on the Colloid Chemistry department of the Chemistry division of Lomonosov Moscow nation college (MSU) over a long time of medical, pedagogical and methodological paintings. in the course of the publication the presentation of basic theoretical and experimental methods and effects is mixed with dialogue of common clinical foundation in their position in nature and purposes in quite a few technological techniques.
By Alexandre Zagoskin
This textual content offers a self-contained remedy of the physics of many-body structures from the viewpoint of condensed topic. The strategy, relatively frequently, makes use of the mathematical formalism of quasiparticles and Green’s features. specifically, it covers all of the very important diagram innovations for regular and superconducting platforms, together with the zero-temperature perturbation idea and the Matsubara, Keldysh and Nambu-Gor'kov formalism, in addition to an creation to Feynman course integrals.
This re-creation comprises an advent to the equipment of idea of one-dimensional platforms (bosonization and conformal box conception) and their purposes to many-body problems.
Intended for graduate scholars in physics and similar fields, the purpose isn't to be exhaustive, yet to give sufficient element to allow the coed to persist with the present study literature, or to use the thoughts to new difficulties. some of the examples are drawn from mesoscopic physics, which bargains with platforms sufficiently small that quantum coherence is maintained all through their quantity and which consequently offers a terrific checking out floor for many-body theories.
By Yn-Hwang Lin
This booklet covers in nice element the Rouse-segment-based molecular theories in polymer viscoelasticity - the Rouse thought and the prolonged reptation thought (based at the framework of the Doi-Edwards conception) - which were proven to provide an explanation for experimental ends up in a continually quantitative means. the reason for the 3.4 energy legislation of viscosity, quantitative line-shape analyses of viscoelastic responses and agreements among different types of viscoelastic responses, the consistency among the viscoelasticity and diffusion effects, the explanation of the onset of entangelement, the invention of the variety of entanglement strands in line with cubed entanglement distance being a common consistent and the fundamental mechanism of the glass transition-related thermorheological complexity are mentioned or proven in nice element. The secret in the back of the luck of the Rouse-segment-based molecular theories over the entropic zone of a viscoelastic reaction is printed via the Monte Carlo simulations at the Fraenkel chains. particularly, the simulation reports supply a normal reason for the coexistence of the energy-driven and entropy-driven modes in a viscoelastic reaction and supply a theoretical foundation resolving the anomaly that the experimentally decided sizes of Rouse and Kuhn segments are approximately an analogous. This e-book starts off from a truly primary point; each one bankruptcy is outfitted upon the contents of the former chapters. therefore, the readers may well use the publication as a textbook and at last achieve a complicated learn point. This booklet can be an invaluable resource of reference for physicists, chemists and fabric scientists.
By Jacob N. Israelachvili
This publication describes the jobs of assorted intermolecular and interparticle forces in opting for the homes of straightforward platforms equivalent to gases, drinks, and solids, of extra complicated colloidal, polymeric, and organic platforms. The booklet offers an intensive grounding in theories and ideas of intermolecular forces, permitting scholars and researchers to acknowledge which forces are vital in any specific method and the way to regulate those forces. Key gains * Surface-force measurements * Solvation and structural forces * Hydration and hydophobic forces * Ion-correlation forces * Thermal fluctuation (steric and undulation) forces * Particle and floor interactions in polymer melts and polymer recommendations * includes labored examples, dialogue issues, and greater than a hundred difficulties
By I. A. Parinov
This publication offers a finished presentation of all kinds of HTSC and incorporates a wide review on HTSC computing device simulations and modeling. Especial cognizance is dedicated to the Bi-Sr-Ca-Cu-O and Y-Ba-Cu-O households that this present day are the main standpoint for purposes. The e-book incorporates a nice variety of illustrations and references. The monograph is addressed to scholars, post-graduate scholars and experts, playing the improvement, education and discovering of latest materials.