5 edition of Interactions in ultracold gases found in the catalog.
Includes bibliographical references and index.
|Statement||Matthias Weidemüller, Claus Zimmermann (eds.).|
|Contributions||Weidemüller, Matthias., Zimmermann, Claus, 1958-|
|LC Classifications||QC161 .I52 2003|
|The Physical Object|
|Pagination||ix, 509 p. :|
|Number of Pages||509|
|LC Control Number||2003283030|
In recent years, there has been much synergy between the exciting areas of quantum information science and ultracold atoms. This volume, as part of the proceedings for the XCI session of Les Houches School of Physics (held for the first time outside Europe in Singapore) brings together experts in both fields. The theme of the school focused on two principal topics: quantum information science. interactions in ultracold gases are fully described by the scattering length, which is a zero-range approximation greatly simplifying the theoretical description. This approximation is valid since the diluteness of the atomic gases implies a particle separation much larger than the short range of the van der Waals interactions. Ultracold atoms are atoms that are maintained at temperatures close to 0 kelvin (absolute zero), typically below several tens of microkelvin (µK). At these temperatures the atom's quantum-mechanical properties become important.. To reach such low temperatures, a combination of several techniques typically has to be used. First, atoms are usually trapped and pre-cooled via laser cooling in a.
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Interactions in Ultracold Gases: From Atoms to Molecules. Editor(s): this book surveys the physics of ultracold atoms and molecules taking into consideration the latest research on ultracold phenomena, such as Bose Einstein condensation and quantum computing.
His group experimentally explores the physics of ultracold atomic and. Interactions in Ultracold Gases: From Atoms to Molecules.
Matthias Weidemüller (Editor), Claus Zimmermann (Editor) ISBN: pages. May Description. Arising from a workshop, this book surveys the physics of ultracold atoms and molecules taking into consideration the latest research on ultracold phenomena, such as Bose.
to publis ah book which o,n one hand, provides thorough introduction the physics into osf ultracold gase ans d their interactions, and on th, e other hand, describe thse up-to-date status of the field with strong emphasis on future perspectives. This book aros frome a workshop and.
Interactions in Ultracold Gases by Matthias Weidemuller,available at Book Depository with free delivery worldwide. Arising from a workshop, this book surveys the physics of ultracold atoms and molecules taking into consideration the latest research on ultracold phenomena, such as Bose Einstein condensation and quantum computing.
Several reputed authors provide an introduction to the field, covering recent experimental results on atom and molecule cooling as well as the theoretical Cited by: adshelp[at] The ADS is operated by the Smithsonian Astrophysical Observatory under NASA Cooperative Agreement NNX16AC86ACited by: The ﬁeld of ultracold atomic quantum gases has met with spectacular success of over the last ten years.
The ﬁrst sensational breakthrough was the creation of Bose-Einstein condensates (BECs) [Bos24, Ein25] in dilute atomic alkali gases in [And95, Dav95]. Since then, atomic quantum gases have led to new developments.
In this thesis the dynamics of ultracold Rydberg gases under the influence of long-range interactions is investigated, with regard to both the incoherent motion of the atoms and coherent effects.
Interactions in Ultracold Gases From Atoms to Molecules. Happy reading Interactions in Ultracold Gases: From Atoms to Molecules Bookeveryone. Download file Free Book PDF Interactions in Ultracold Gases: From Atoms to Molecules at Complete PDF Library.
This Book have some digital formats such us:paperbook, ebook, kindle, epub, fb2 and another formats. Here is The CompletePDF Book Library. It's free. In this thesis the dynamics of ultracold Rydberg gases under the inﬂuence of long-range interactions is investigated, with regard to both the incoherent motion of the atoms and coherent effects in the preparation and interaction of the gas.
Due to their ex-ceptional properties, these highly excited atoms have a great potential for applications in. A defining quality of solitons are their interactions. The images of solitons in Fig. 2 reveal something the nonlinear Schrödinger equation did not predict: soliton trains. More detailed images of the soliton train are shown in Fig.
3, where it can be seen that the solitons bunch at the turning points and spread out in the this we infer repulsive interactions between adjacent Cited by: 4. Strong Interactions in Ultracold Fermi Gases Martin Zwierlein MhttMassachusetts ItittInstitute of Th lTechnology Center for Ultracold Atoms.
How cold is ultracold. ~ 1 mm/s ~ m/s ~ m/s Atoms move at: Paris in 10 seconds 1 T(K) Your living Supernova explosion Ultracold atom experiments Center of the.
Presents a survey of the physics of ultracold atoms and molecules taking into consideration the various research on ultracold phenomena, such as Bose Einstein condensation and quantum computing. This book covers contemporary experimental results on atom and molecule cooling, as.
Topical reports --Two-dimensional gas of Cesium atoms confined by evanescent waves /M. Hammes [and others] --Ultracold Rydberg gases and plasmas / P. Gould [and others] --Interactions in ultracold atomic mixtures / G. Modugno & G.
Roati --Bose-Einstein condensates in optical lattices / I. Bloch [and others] --Atom-molecule coherence in 85 Rb.
Excitation of Rydberg atom interaction potentials with microwaves to investigate dipole–dipole interactions in an ultracold gas has been carried out, and the results are in agreement with the asymptotic calculations (Afrousheh et al.,Yu et al., ).
The effect of ac Stark shifts on Rydberg atoms has also been explored. The achievement of ultracold gases ( and Nobel prizes) is the most remarkable among many. Starting from an optical point of view, we theoretically investigate the features of ultracold atomic gases as an extremely dispersive and tunable medium.
We first discuss the light scattering from an atomic crystal bound by light (Mott insulator Author: Francesco Bariani. Atom‐molecule coherence in a Bose–Einstein condensate (BEC) has been observed in the vicinity of the 85 Rb Feshbach resonance.
Rapid changes to the magnetic field induced oscillations in. New interactions seen in an ultracold gas Experiments have revealed an attractive interaction between pairs of particles that is mediated by a surrounding quantum gas.
The finding paves the way for a detailed study of the properties of such mediated interactions. See Letter p Figure 1 | An ultracold mixture of lithium and caesium atoms. This book provides advanced undergraduate and graduate students with an overview of the fundamentals of cold and ultracold chemistry.
Beginning with definitions of what cold and ultracold temperatures mean in chemistry, the book then takes the student through the essentials of scattering theory (classical and quantum mechanical), light-matter interaction, reaction dynamics and Rydberg. Tunability of interactions in ultracold atomic gases has been achieved by exploiting magnetically controlled colli-sional (Feshbach) resonances , where the total energy of two colliding atoms in an energetically open channel is tuned into resonance with a bound dimer state in a closed channel.
Optical field control offers a much richer palette. Starting from the basics such as atomic structure, atom-light interaction, laser cooling and trapping, the book then moves on to focus on the treatment of ultracold Fermi gases, before turning to topics in quantum simulation using cold atoms in optical lattices.
Search within book. Front Matter. Pages i-xviii. PDF. Introduction. Juris Ulmanis. Pages Two-Body Interactions Between Li and Cs Atoms.
Juris Ulmanis. Pages Universality of Li-Cs-Cs Efimov Resonances. Juris Ulmanis. Pages the Efimov effect has now become a new research paradigm not only in ultracold atomic gases but also. gases in: Interaction in Ultracold Gases: From Atoms to Molecules (Wiley, New York ) • G.
Fahsold, K. Singer, and A. Pucci In-situ IR-transmission study of vibrational and electronic properties during the formation of thin-ﬁlm β-FeSi2 Journal of Applied Phys () • M.
Mudrich, S. Kraft, K. Singer, R. Grimm, A. Mosk, and M. The physics of ultracold atoms and molecules is extensively surveyed, including phenomena such as Bose-Einstein condensation, strongly interacting quantum gases and ultracold molecules.
Arising from a combined workshop and training school, the book contains tutorial introductions on optical cooling, quantum collisions, experimental methods.
The rapidly developing topic of ultracold atoms has many actual and potential applications for condensed-matter science, and the contributions to this book emphasize these connections. Ultracold Bose and Fermi quantum gases are introduced at a level appropriate for first-year graduate stu.
Ultracold Bosonic and Fermionic Gases Book Description: The rapidly developing topic of ultracold atoms has many actual and potential applications for condensed-matter science, and the contributions to this book emphasize these connections.
Ultracold Bose and Fermi quantum gases are introduced at a level appropriate for first-year graduate. Superfluidity is viewed as the state wherein an object can move through a gas as if it were absent.
For an ideal Bose gas, the superfluid density is the difference between the total density and the normal density. The analog of a BCS transition can be obsrved in a neutral ultracold atomic Fermi gases with attractive s-wave interactions.
Reviews: 6. This book gathers the lecture notes of courses given at the summer school in theoretical physics in Les Houches, France, Session XCIV. Written in a pedagogical style, this volume illustrates how the field of quantum gases has flourished at the interface between atomic physics and quantum optics, condensed matter physics, nuclear and high-energy physics, non-linear physics and quantum.
Ultracold Bosonic And Fermionic Gases. In Order to Read Online or Download Ultracold Bosonic And Fermionic Gases Full eBooks in PDF, EPUB, Tuebl and Mobi you need to create a Free account.
Get any books you like and read everywhere you want. Fast Download Speed ~ Commercial & Ad Free. We cannot guarantee that every book is in the library. Ultracold atomic gases have developed into prime systems for experimental studies of Efimov three-body physics and related few-body phenomena, which occur in the universal regime of resonant interactions.
In the last few years, many important breakthroughs have been achieved, confirming basic predictions of universal few-body theory and deepening our understanding of such systems.
The eBook editions of the "Quantum World Trilogy" feature an extensive system of hyperlinks for ease of cross reference within the books, as well as links to the other books in the trilogy.
In the section Viewing the eBooks we explain how these links work, and give some advice on. In this thesis the interaction of light with Bose-Einstein condensates and ultracold thermal atomic ensembles is examined. A quantitative study of polarization rotation, also called Faraday rotation, is presented.
Rotation angles are predicted from atom numbers deter. The quest for ultra-cold Fermi gases started shortly after the discovery, and quantum degeneracy in a gas of fermionic atoms was obtained in The Pauli exclusion principle plays a crucial role in many aspects of ultracold Fermi gases, including inhibited interactions with applications to precision measurements, and strong correlations.
Ultracold molecules are expected to find applications in cold chemistry, quantum phases, precision measurements and quantum information. In this thesis three novel applications of cold molecules are studied. First the thesis presents a general method for coherent control of collisions between non-identical particles.
It is shown that by preparing two alkali-metal atoms in a superposition of. Many-body Physics with Ultracold Gases by Immanuel Bloch, Jean Dalibard, Wilhelm Zwerger. Publisher: Number of pages: Description: This paper reviews recent experimental and theoretical progress concerning many-body phenomena in dilute, ultracold gases.
Amongst the many examples, ultracold Rydberg atoms are used in the study of quantum information [3, 4], surfaces, quantum optics [6, 7] and dipolar quantum gases. Phenomena such as the formation of novel types of molecules [ 9 ], collisions between ultracold Rydberg atoms, including the effect of electric fields [ 10, 11 ], and dipole.
Ultracold Fermi Gas with Repulsive Interactions by Ye-Ryoung Lee Submitted to the Department of Physics on Augin partial fulfillment of the requirements for the degree of Doctor of Philosophy Abstract This thesis presents results from experiments of ultracold atomic Fermi gases with repulsive interaction.
Ultracold Fermi Gas with Repulsive Interactions by Ye-Ryoung Lee Submitted to the Department of Physics on Augin partial ful llment of the requirements for the degree of Doctor of Philosophy Abstract This thesis presents results from experiments of ultracold atomic Fermi gases with repulsive interaction.
We discuss the thermal gas to Bose Einstein Condensation (BEC) transition of an ultracold Bose gas in a linear quadrupolar trap with contact interatomic interactions within the Hartree Fock (HF.
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Read as many books as you like (Personal use) and Join Over Happy Readers. We cannot guarantee that every book is in the library.book Hamiltonian for itinerant ferromagnetism (8), by using a two-component gas of free fer-mions with short-range repulsive interactions, which can capture the essence of the screened Coulomb interaction in electron gases (8).
How-ever, there is no proof so far that this simple model for ferromagnetism is consistent when the.Effects of Strong Interactions in Ultracold Rydberg Gases Jovica Stanojevic Theoretical Physics, University of Belgrade, Belgrade, Serbia, A Dissertation Submitted in Partial Pullfilment of the Requirements for the Degree of Doctor of Philosophy at the University of Connecticut Reproduced with permission of the copyright owner.