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  • A Scattering
    A Scattering

    In Highland Scotland in 1850, Catriona lives life to the rhythm of seasons and Gaelic songs, until a dramatic change of circumstance forces her to fight for everyone and everything she loves. Years later Rose, an artist, trying to make sense of her fractured family and her own restlessness, searches among the ruins of a deserted landscape.Does the answer lie in the injustices of the past?Set on a remote Scottish hillside, during the Highland Clearances, A Scattering follows Rose and Catriona, who are from different centuries, but share a secret and a common enemy. Interweaving the story of a crofting community with a rich Gaelic culture, and one set in present-day Scotland, it explores the effect the clearances had not only on the people and culture but also on later generations, until one woman finds a way to break the cycle.

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  • A Scattering and Anniversary
    A Scattering and Anniversary

    This edition brings together A Scattering and Anniversary into a single book of lamentation and remembrance, its subject being Christopher Reid's wife, the actress Lucinda Gane, who died of cancer at the age of fifty-five.A Scattering was first published in the UK in 2009 to wide acclaim, winning the Costa Book of the Year Award.This moving and fiercely self-reflective collection is divided into four poetic sequences.The first was written during a holiday a few months before Gane's death with the knowledge that the end was approaching; the second recalls her last courageous weeks, spent in a hospice in London; the third continues the exploration of bereavement from a variety of perspectives; and the fourth addresses her directly, celebrating her life, personality and achievements. Pairing A Scattering for the first time with Anniversary, which was written to commemorate the tenth anniversary of Gane's death, this volume brings Reid into dialogue, again, with the wife he loved.A moving exploration of the stages of grief and how the 'weighty emptinesses' that remain after bereavement change us, A Scattering andAnniversary show us what it means to love, lose and - forever changed - continue on.

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  • A Scattering of Blue Light
    A Scattering of Blue Light


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  • Scattering of Waves : Theory and Applications
    Scattering of Waves : Theory and Applications

    Scattering of waves from material objects and abstract potentials is a large part of modern mathematical physics with wide applications from geophysics and medical imaging to relatively recent near-field physics and technology making almost unrestricted imaging resolution possible.These have led to profound advancements in scattering and inverse scattering theories.Scattering of Waves: Theory and Applications explores the underlying concepts, physics and mathematics of wave scattering and wave field structures and self-consistently introduces a range of topics in scalar acoustics and quantum and vector electromagnetic scattering. Features:A unified and comprehensive presentation of Laplace, Poisson, Helmholtz and wave equations, d'Alembert's solution, Poisson's spherical means, Hadamard's method of descent and the equations of Euler-Poisson-Darboux and Kirchoff, their revealing physical imports and connections with Huygen's principle.Also included are Maxwell's equations, gauges, energy and momentum conservations. A concise introduction to the concepts of domain differentiation, angular spectrum, principal volume and cavity definition used in the derivations. Extensive treatments of Green's functions and tensors, delta derivatives, transverse delta function, point approximation of electromagnetic Green's tensor, distributional calculations of the mixed derivatives of scalar Green's function and the depolarizing dyadic. An in-depth presentation of the integral method in scattering and the Huygen-Fresnel, Fresnel-Kirchoff and Helmholtz integral representations of the scattered fields.Also provided a comprehensive historical antecedents alongside modern quantitative development. Extensive discussions of time dependent and stationary formal scattering theory; resolvent, Green and wave operators, S and T matrices; detailed compilations of numerous operator relations and identities; scattering amplitude; its properties and Fourier transform relation with T-matrix. Detailed derivations of the optical theorem; field equivalence principles; physics and mathematics of evanescent waves and near-field implications of the derived expressions. Expressions are mostly derived explicitly and whenever possible, from more than a single perspective. Often, there arise controversies among experts on some derivations and interpretations.These are brought out whenever they appear for the reader to form his or her own opinion. Primarily aimed at advanced students of physics, engineering and applied mathematics, this text will also be valuable to researchers and faculties in electromagnetics, acoustics and quantum mechanics.

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  • Why is Rutherford's scattering experiment called a scattering experiment at all?

    Rutherford's experiment is called a scattering experiment because it involved firing alpha particles at a thin gold foil and observing how they scattered after hitting the foil. The term "scattering" refers to the process of particles being deflected from their original path as a result of collisions with the atoms in the foil. By analyzing the pattern of scattering, Rutherford was able to deduce the structure of the atom and propose the existence of a dense, positively charged nucleus at its center. This experiment was crucial in advancing our understanding of atomic structure and the behavior of subatomic particles.

  • What was Rutherford's scattering experiment?

    Rutherford's scattering experiment involved firing alpha particles at a thin gold foil and observing their deflection. The experiment aimed to study the structure of the atom and determine how the positive charge is distributed within it. The unexpected results of the experiment led Rutherford to propose the nuclear model of the atom, where he suggested that atoms have a small, dense, positively charged nucleus at their center. This experiment was crucial in advancing our understanding of atomic structure.

  • What is the Rutherford scattering experiment?

    The Rutherford scattering experiment was conducted by physicist Ernest Rutherford in 1909. In this experiment, Rutherford bombarded a thin gold foil with alpha particles and observed their scattering patterns. The unexpected results of the experiment led to the discovery of the atomic nucleus and the development of the nuclear model of the atom. The experiment showed that most of the alpha particles passed through the foil, but some were deflected at large angles, indicating the presence of a small, dense nucleus within the atom. This experiment revolutionized our understanding of the structure of the atom.

  • What is the Rutherford scattering with copper?

    Rutherford scattering with copper refers to the experiment conducted by Ernest Rutherford in which he bombarded a thin gold foil with alpha particles. The experiment led to the discovery that atoms have a small, dense nucleus at their center, which was a groundbreaking finding in the field of nuclear physics. The use of copper in the experiment is not common, as gold was the metal foil typically used due to its malleability and ability to be made very thin.

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  • Brillouin Scattering Part 2 : Volume 110
    Brillouin Scattering Part 2 : Volume 110

    Brillouin Scattering, Part Two, Volume 110 in the Semiconductors and Semimetal series, marks the centenary of Leon Brillouin’s seminal 1922 paper which provided a detailed theory on the effect that now bears his name. Sections in this new release include Optical Fiber Sensors Based on Stimulated Brillouin scattering, Brillouin-based RF frequency sources, SBS for Microwave Photonics (MWP), Engineerable Brillouin processes for integrated photonics, SBS in optical communication systems - the good, the bad and the ugly, Slow light, dynamic gratings and light storage, Non-reciprocity in Brillouin scattering, Electromechanical Brillouin Scattering, and Brillouin light scattering for studying mechanics of biological systems. Stimulated Brillouin Scattering (SBS) is the strongest third order nonlinearity and plays an important role in contemporary science and applications, particularly lasers, communications, fiber optics and basic physics.This volume provides different perspectives on current technological contexts of SBS in a range of different application areas, including sensing, communications, radar, imaging and information storage.

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  • Scattering His Virgin Bloom, Vol. 1
    Scattering His Virgin Bloom, Vol. 1

    An omega with a complicated past falls for an alpha who doesn’t believe in fate. A virgin omega living in secret is outed when his first heat hits at work!Just when he thinks things can’t get much worse, he bumps right into his secret crush who just so happens to be a smokin’ hot alpha!Hana—an omega frequently mistaken for an alpha—works at a local cafe, and at 26 years old, he’s somehow never gone into heat and still retains his virginity.When his first heat finally hits, it’s in front of arrogant alpha Renjaku, a regular at the cafe whom he’s been secretly crushing on.Will a sought-after alpha such as Renjaku take his coffee and go, or will he take something much sweeter instead?

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  • Maxwell Equation: Inverse Scattering In Electromagnetism
    Maxwell Equation: Inverse Scattering In Electromagnetism

    How can one determine the physical properties of the medium or the geometrical properties of the domain by observing electromagnetic waves?To answer this fundamental problem in mathematics and physics, this book leads the reader to the frontier of inverse scattering theory for electromagnetism.The first three chapters, written comprehensively, can be used as a textbook for undergraduate students.Beginning with elementary vector calculus, this book provides fundamental results for wave equations and Helmholtz equations, and summarizes the potential theory.It also explains the cohomology theory in an easy and straightforward way, which is an essential part of electromagnetism related to geometry.It then describes the scattering theory for the Maxwell equation by the time-dependent method and also by the stationary method in a concise, but almost self-contained manner.Based on these preliminary results, the book proceeds to the inverse problem for the Maxwell equation.The chapters for the potential theory and elementary cohomology theory are good introduction to graduate students.The results in the last chapter on the inverse scattering for the medium and the determination of Betti numbers are new, and will give a current scope for the inverse spectral problem on non-compact manifolds.It will be useful for young researchers who are interested in this field and trying to find new problems.

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  • Scattering Amplitudes in Quantum Field Theory
    Scattering Amplitudes in Quantum Field Theory

    This open access book bridges a gap between introductory Quantum Field Theory (QFT) courses and state-of-the-art research in scattering amplitudes.It covers the path from basic definitions of QFT to amplitudes, which are relevant for processes in the Standard Model of particle physics.The book begins with a concise yet self-contained introduction to QFT, including perturbative quantum gravity.It then presents modern methods for calculating scattering amplitudes, focusing on tree-level amplitudes, loop-level integrands and loop integration techniques.These methods help to reveal intriguing relations between gauge and gravity amplitudes and are of increasing importance for obtaining high-precision predictions for collider experiments, such as those at the Large Hadron Collider, as well as for foundational mathematical physics studies in QFT, including recent applications to gravitational wave physics.These course-tested lecture notes include numerous exercises with solutions.Requiring only minimal knowledge of QFT, they are well-suited for MSc and PhD students as a preparation for research projects in theoretical particle physics.They can be used as a one-semester graduate level course, or as a self-study guide for researchers interested in fundamental aspects of quantum field theory.

    Price: 34.99 £ | Shipping*: 0.00 £
  • What is the difference between reflection and scattering?

    Reflection occurs when light bounces off a surface at the same angle it hits it, resulting in a clear image. Scattering, on the other hand, occurs when light is dispersed in different directions by particles or irregularities in a medium, resulting in a diffuse or hazy appearance. In reflection, the light maintains its original intensity and color, while in scattering, the light may lose intensity and change color due to the interaction with the medium.

  • What causes the photoelectric effect: absorption or scattering?

    The photoelectric effect is caused by absorption of photons by electrons in a material, rather than scattering. When a photon with sufficient energy is absorbed by an electron in a material, it can transfer enough energy to the electron to liberate it from the material, causing the photoelectric effect. Scattering, on the other hand, involves the redirection of photons by particles in a material, but it does not result in the ejection of electrons from the material.

  • Can you repeat the Rutherford scattering experiment in physics?

    Yes, the Rutherford scattering experiment can be repeated in physics. The experiment involves firing alpha particles at a thin gold foil and observing their scattering patterns. This experiment can be replicated using modern equipment and techniques to study the behavior of alpha particles and the structure of the atom. By using more advanced detectors and data analysis methods, scientists can continue to explore the fundamental principles of atomic structure and the behavior of subatomic particles.

  • Why is the Rutherford experiment called the scattering experiment?

    The Rutherford experiment is called the scattering experiment because it involved firing alpha particles at a thin gold foil and observing how they scattered after hitting the foil. This scattering of alpha particles provided crucial evidence for the existence of a small, dense nucleus within the atom, as most of the alpha particles passed through the foil with little deflection, but a small fraction were scattered at large angles. This unexpected scattering pattern led to the development of the nuclear model of the atom and revolutionized our understanding of atomic structure.

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