Description

Book Synopsis
Laser cooling is a new technique that has led to new insights into the behavior of atoms. This text covers the foundations, the techniques, and applications: from atomic clocks and studies of collision processes to diffraction and interference of atomic beams at optical lattices. It is aimed at advanced undergraduates and beginning graduates.

Table of Contents
Introduction and review of quantum mechanics: Review of Quantum Mechanics.- The Density Matrix.- Force on Two-Level Atoms.- Multi-Level Atoms.- General Properties Concerning Laser Cooling. Cooling and Trapping: Deceleration of an Atomic Beam.- Optical Molasses.- Cooling Below the Doppler Limit.- The Dipole Force.- Magentic Trapping of Neutral Atoms.- Optical Traps for Neutral Atoms.- Evaporative Cooling. Applications: Newtonian Atom Optics.- Ultra-Cold Collisions.- deBrooglie-Wave Optics.- Optical Lattices.- Bose -Einstein Condensation.- Dark States.

Laser Cooling and Trapping

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A Hardback by Harold J. Metcalf, Peter Van Der Straten

15 in stock


    View other formats and editions of Laser Cooling and Trapping by Harold J. Metcalf

    Publisher: Springer
    Publication Date: 9/29/1999 12:00:00 AM
    ISBN13: 9780387987477, 978-0387987477
    ISBN10: 0387987479
    Also in:
    Atomic and molecular physics Particle and high-energy physics Quantum physics

    Description

    Book Synopsis
    Laser cooling is a new technique that has led to new insights into the behavior of atoms. This text covers the foundations, the techniques, and applications: from atomic clocks and studies of collision processes to diffraction and interference of atomic beams at optical lattices. It is aimed at advanced undergraduates and beginning graduates.

    Table of Contents
    Introduction and review of quantum mechanics: Review of Quantum Mechanics.- The Density Matrix.- Force on Two-Level Atoms.- Multi-Level Atoms.- General Properties Concerning Laser Cooling. Cooling and Trapping: Deceleration of an Atomic Beam.- Optical Molasses.- Cooling Below the Doppler Limit.- The Dipole Force.- Magentic Trapping of Neutral Atoms.- Optical Traps for Neutral Atoms.- Evaporative Cooling. Applications: Newtonian Atom Optics.- Ultra-Cold Collisions.- deBrooglie-Wave Optics.- Optical Lattices.- Bose -Einstein Condensation.- Dark States.

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