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Ultra-cold atoms, ions, molecules and quantum technologies /Michèle Leduc, Robin Kaiser, Hélène Perrin.

Contributor(s): Material type: TextTextPublication details: Les Ulis : EDP Sciences, (c)2022.Description: 1 online resource (192 pages)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 2759827461
  • 9782759827466
Subject(s): Genre/Form: LOC classification:
  • QC174 .U487 2022
Online resources: Available additional physical forms:
Contents:
Frontmatter -- Preamble -- Coordinators, Contributors, Sponsors and Acknowledgments -- Preface: Fifteen miraculous years: bypassing impossibility theorems -- Contents -- Chapter 1 Cooling and Trapping Atoms -- Chapter 2 Cold Atom Instruments and Metrology -- Chapter 3 Single Atoms and Single Photons: Quantum Information Exchange -- Chapter 4 Quantum Simulation with Cold Atoms -- Chapter 5 Waves and Disorder -- Chapter 6 Trapping and Cooling Ions -- Chapter 7 Cold and Ultracold Molecules -- Chapter 8 Conclusion and Everything Else This Book Could also Have Been About... -- Index
Subject: Physicists know how to produce gases at a few billionths of a degree above absolute zero. The cooling methods apply not only to atoms but also to ions and molecules. This field of research has three times been awarded the Nobel Prize. The field experienced remarkable growth when experimentalists learned how to vary at will the interactions between particles, trapping them with optical tweezers or in optical gratings with adjustable geometry. Artificial crystals made of atoms or molecules can be built to simulate the structure of matter and elucidate some of its magnetic properties, hopefully contributing to the understanding of high-temperature superconductivity. The phenomenon of quantum entanglement is the basis for new devices for the storage and transmission of quantum information. Spectacular progress is constantly being made in metrology. For example, ultra-cold atom or ion clocks measure time to better than one second over the lifetime of the Universe. New types of industrial gravimeters and gyroscopes are improving the sensitivity of seismology and navigation in space. In addition, the extreme precision of the measurements allows tests of the fundamental laws of physics, such as quantum electrodynamics, Lorentz invariance or possible variations of the fundamental constants. The field of ultra-cold particles has now reached the stage where it provides insights in the fields of condensed matter, chemistry and even cosmology.
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Item type Current library Collection Call number URL Status Date due Barcode
Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) Online Book (LOGIN USING YOUR MY CIU LOGIN AND PASSWORD) G. Allen Fleece Library ONLINE Non-fiction QC174.12 (Browse shelf(Opens below)) Link to resource Available on1368055282

Includes bibliographies and index.

Frontmatter -- Preamble -- Coordinators, Contributors, Sponsors and Acknowledgments -- Preface: Fifteen miraculous years: bypassing impossibility theorems -- Contents -- Chapter 1 Cooling and Trapping Atoms -- Chapter 2 Cold Atom Instruments and Metrology -- Chapter 3 Single Atoms and Single Photons: Quantum Information Exchange -- Chapter 4 Quantum Simulation with Cold Atoms -- Chapter 5 Waves and Disorder -- Chapter 6 Trapping and Cooling Ions -- Chapter 7 Cold and Ultracold Molecules -- Chapter 8 Conclusion and Everything Else This Book Could also Have Been About... -- Index

Physicists know how to produce gases at a few billionths of a degree above absolute zero. The cooling methods apply not only to atoms but also to ions and molecules. This field of research has three times been awarded the Nobel Prize. The field experienced remarkable growth when experimentalists learned how to vary at will the interactions between particles, trapping them with optical tweezers or in optical gratings with adjustable geometry. Artificial crystals made of atoms or molecules can be built to simulate the structure of matter and elucidate some of its magnetic properties, hopefully contributing to the understanding of high-temperature superconductivity. The phenomenon of quantum entanglement is the basis for new devices for the storage and transmission of quantum information. Spectacular progress is constantly being made in metrology. For example, ultra-cold atom or ion clocks measure time to better than one second over the lifetime of the Universe. New types of industrial gravimeters and gyroscopes are improving the sensitivity of seismology and navigation in space. In addition, the extreme precision of the measurements allows tests of the fundamental laws of physics, such as quantum electrodynamics, Lorentz invariance or possible variations of the fundamental constants. The field of ultra-cold particles has now reached the stage where it provides insights in the fields of condensed matter, chemistry and even cosmology.

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