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The Resource Advances in atomic, molecular, and optical physics, edited by P.R. Berman, C.C. Lin, (electronic resource)
Advances in atomic, molecular, and optical physics, edited by P.R. Berman, C.C. Lin, (electronic resource)
Resource Information
The item Advances in atomic, molecular, and optical physics, edited by P.R. Berman, C.C. Lin, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Boston University Libraries.This item is available to borrow from all library branches.
Resource Information
The item Advances in atomic, molecular, and optical physics, edited by P.R. Berman, C.C. Lin, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in Boston University Libraries.
This item is available to borrow from all library branches.
 Summary
 This volume continues the tradition of the Advances series. It contains contributions from experts in the field of atomic, molecular, and optical (AMO) physics. The articles contain some review material, but are intended to provide a comprehensive picture of recent important developments in AMO physics. Both theoretical and experimental articles are included in the volume.· International experts· Comprehensive articles· New developments
 Language

 eng
 eng
 Extent
 1 online resource (453 p.)
 Note
 Description based upon print version of record
 Contents

 Contents; Contributors; Exploring Quantum Matter with Ultracold Atoms in Optical Lattices; Introduction; Optical Lattices; Optical Dipole Force; Optical Lattice Potentials; 1D Lattice Potentials; 2D Lattice Potentials; 3D Lattice Potentials; SpinDependent Optical Lattice Potentials; BoseEinstein Condensates in Optical Lattices; Bloch Bands; Wannier Functions; Ground State Wave Function of a BEC in an Optical Lattice; Discretization; Ground State; Adiabatic Mapping of Crystal Momentum to Free Particle Momentum; BoseHubbard Model of Interacting Bosons in Optical Lattices
 Ground States of the BoseHubbard HamiltonianDouble Well Case; Multiple Well Case; SFMI Transition in Inhomogeneous Potentials; Superfluid to Mott Insulator Transition; Collapse and Revival of a Macroscopic Quantum Field; Quantum Gate Arrays via Controlled Collisions; SpinDependent Transport; Controlled Collisions; Using Controlled Collisional Quantum Gates; Outlook; Acknowledgements; References; The Kicked Rydberg Atom; Introduction; ImpulsivelyDriven or ``Kicked'' Systems; Related Problems; Realization of the Impulsive Limit; Experimental Apparatus; FreelyPropagating HalfCycle Pulses
 Studies at VeryHigh nCreation of QuasiOneDimensional Atoms; Effect of a Single HCP; Energy Transfer and Ionization; Wavepacket Production and Evolution; Characterization of Quasi1D Atoms; Effect of Multiple HCPs; Dynamical Stabilization; 3D Atoms; 1D and Quasi1D Atoms: Effect of Kick Direction; ClassicalQuantum Correspondence; FreelyPropagating Attosecond HCP Trains; Alternating Kicks; PhaseSpace Localization; Dynamical Filtering; Navigating in PhaseSpace; Transient PhaseSpace Localization; Outlook; Atomic Engineering; Classical Limit of Quantum Mechanics; Further Applications
 AcknowledgementsReferences; Photonic State Tomography; State Representation; Representation of SingleQubit States; Pure States, Mixed States, and Diagonal Representations; The Stokes Parameters and the Poincaré Sphere; Representation of Multiple Qubits; Pure States, Mixed States, and Diagonal Representations; Fidelity.; Tangle.; Entropy and the linear entropy.; Multiple Qubit Stokes Parameters; Representation of Nonqubit Systems; Pure, Mixed, and Diagonal Representations; Qudit Stokes Parameters; Tomography of Ideal Systems; SingleQubit Tomography; Visualization of SingleQubit Tomography
 A Mathematical Look at SingleQubit TomographyMultipleQubit Tomography; Tomography of Nonqubit Systems; General Qubit Tomography; Collecting Tomographic Measurements; Projection; Arbitrary SingleQubit Projection; Compensating for Imperfect Waveplates; Wedged waveplates; MultipleQubit Projections and Measurement Ordering; n vs. 2n Detectors; Electronics and Detectors; Collecting Data and Systematic Error Correction; Accidental Coincidences; Beamsplitter Crosstalk; DetectorPair Efficiency Calibration; Intensity Drift; Analyzing Experimental Data; Types of Errors and State Estimation
 The Maximum Likelihood Technique
 Isbn
 9780080460253
 Label
 Advances in atomic, molecular, and optical physics
 Title
 Advances in atomic, molecular, and optical physics
 Statement of responsibility
 edited by P.R. Berman, C.C. Lin
 Language

 eng
 eng
 Summary
 This volume continues the tradition of the Advances series. It contains contributions from experts in the field of atomic, molecular, and optical (AMO) physics. The articles contain some review material, but are intended to provide a comprehensive picture of recent important developments in AMO physics. Both theoretical and experimental articles are included in the volume.· International experts· Comprehensive articles· New developments
 Cataloging source
 MiAaPQ
 Dewey number

 539
 539/.05
 Illustrations
 illustrations
 Index
 index present
 Language note
 English
 LC call number
 QC173
 LC item number
 .A254 2005
 Literary form
 non fiction
 Nature of contents

 dictionaries
 bibliography
 http://library.link/vocab/relatedWorkOrContributorName

 Berman, P. R
 Lin, C. C
 Series statement
 Advances in atomic, molecular, and optical physics
 Series volume
 52
 http://library.link/vocab/subjectName

 Nuclear physics
 Physical optics
 Molecules
 Atoms
 Label
 Advances in atomic, molecular, and optical physics, edited by P.R. Berman, C.C. Lin, (electronic resource)
 Note
 Description based upon print version of record
 Bibliography note
 Includes bibliographical references and index
 Carrier category
 online resource
 Carrier category code
 cr
 Content category
 text
 Content type code
 txt
 Contents

 Contents; Contributors; Exploring Quantum Matter with Ultracold Atoms in Optical Lattices; Introduction; Optical Lattices; Optical Dipole Force; Optical Lattice Potentials; 1D Lattice Potentials; 2D Lattice Potentials; 3D Lattice Potentials; SpinDependent Optical Lattice Potentials; BoseEinstein Condensates in Optical Lattices; Bloch Bands; Wannier Functions; Ground State Wave Function of a BEC in an Optical Lattice; Discretization; Ground State; Adiabatic Mapping of Crystal Momentum to Free Particle Momentum; BoseHubbard Model of Interacting Bosons in Optical Lattices
 Ground States of the BoseHubbard HamiltonianDouble Well Case; Multiple Well Case; SFMI Transition in Inhomogeneous Potentials; Superfluid to Mott Insulator Transition; Collapse and Revival of a Macroscopic Quantum Field; Quantum Gate Arrays via Controlled Collisions; SpinDependent Transport; Controlled Collisions; Using Controlled Collisional Quantum Gates; Outlook; Acknowledgements; References; The Kicked Rydberg Atom; Introduction; ImpulsivelyDriven or ``Kicked'' Systems; Related Problems; Realization of the Impulsive Limit; Experimental Apparatus; FreelyPropagating HalfCycle Pulses
 Studies at VeryHigh nCreation of QuasiOneDimensional Atoms; Effect of a Single HCP; Energy Transfer and Ionization; Wavepacket Production and Evolution; Characterization of Quasi1D Atoms; Effect of Multiple HCPs; Dynamical Stabilization; 3D Atoms; 1D and Quasi1D Atoms: Effect of Kick Direction; ClassicalQuantum Correspondence; FreelyPropagating Attosecond HCP Trains; Alternating Kicks; PhaseSpace Localization; Dynamical Filtering; Navigating in PhaseSpace; Transient PhaseSpace Localization; Outlook; Atomic Engineering; Classical Limit of Quantum Mechanics; Further Applications
 AcknowledgementsReferences; Photonic State Tomography; State Representation; Representation of SingleQubit States; Pure States, Mixed States, and Diagonal Representations; The Stokes Parameters and the Poincaré Sphere; Representation of Multiple Qubits; Pure States, Mixed States, and Diagonal Representations; Fidelity.; Tangle.; Entropy and the linear entropy.; Multiple Qubit Stokes Parameters; Representation of Nonqubit Systems; Pure, Mixed, and Diagonal Representations; Qudit Stokes Parameters; Tomography of Ideal Systems; SingleQubit Tomography; Visualization of SingleQubit Tomography
 A Mathematical Look at SingleQubit TomographyMultipleQubit Tomography; Tomography of Nonqubit Systems; General Qubit Tomography; Collecting Tomographic Measurements; Projection; Arbitrary SingleQubit Projection; Compensating for Imperfect Waveplates; Wedged waveplates; MultipleQubit Projections and Measurement Ordering; n vs. 2n Detectors; Electronics and Detectors; Collecting Data and Systematic Error Correction; Accidental Coincidences; Beamsplitter Crosstalk; DetectorPair Efficiency Calibration; Intensity Drift; Analyzing Experimental Data; Types of Errors and State Estimation
 The Maximum Likelihood Technique
 Dimensions
 unknown
 Extent
 1 online resource (453 p.)
 Form of item
 online
 Isbn
 9780080460253
 Media category
 computer
 Media type code
 c
 Specific material designation
 remote
 System control number

 (EBL)269722
 (OCoLC)475999002
 (SSID)ssj0000098091
 (PQKBManifestationID)11119307
 (PQKBTitleCode)TC0000098091
 (PQKBWorkID)10141389
 (PQKB)10229592
 (MiAaPQ)EBC269722
 (EXLCZ)991000000000365073
 Label
 Advances in atomic, molecular, and optical physics, edited by P.R. Berman, C.C. Lin, (electronic resource)
 Note
 Description based upon print version of record
 Bibliography note
 Includes bibliographical references and index
 Carrier category
 online resource
 Carrier category code
 cr
 Content category
 text
 Content type code
 txt
 Contents

 Contents; Contributors; Exploring Quantum Matter with Ultracold Atoms in Optical Lattices; Introduction; Optical Lattices; Optical Dipole Force; Optical Lattice Potentials; 1D Lattice Potentials; 2D Lattice Potentials; 3D Lattice Potentials; SpinDependent Optical Lattice Potentials; BoseEinstein Condensates in Optical Lattices; Bloch Bands; Wannier Functions; Ground State Wave Function of a BEC in an Optical Lattice; Discretization; Ground State; Adiabatic Mapping of Crystal Momentum to Free Particle Momentum; BoseHubbard Model of Interacting Bosons in Optical Lattices
 Ground States of the BoseHubbard HamiltonianDouble Well Case; Multiple Well Case; SFMI Transition in Inhomogeneous Potentials; Superfluid to Mott Insulator Transition; Collapse and Revival of a Macroscopic Quantum Field; Quantum Gate Arrays via Controlled Collisions; SpinDependent Transport; Controlled Collisions; Using Controlled Collisional Quantum Gates; Outlook; Acknowledgements; References; The Kicked Rydberg Atom; Introduction; ImpulsivelyDriven or ``Kicked'' Systems; Related Problems; Realization of the Impulsive Limit; Experimental Apparatus; FreelyPropagating HalfCycle Pulses
 Studies at VeryHigh nCreation of QuasiOneDimensional Atoms; Effect of a Single HCP; Energy Transfer and Ionization; Wavepacket Production and Evolution; Characterization of Quasi1D Atoms; Effect of Multiple HCPs; Dynamical Stabilization; 3D Atoms; 1D and Quasi1D Atoms: Effect of Kick Direction; ClassicalQuantum Correspondence; FreelyPropagating Attosecond HCP Trains; Alternating Kicks; PhaseSpace Localization; Dynamical Filtering; Navigating in PhaseSpace; Transient PhaseSpace Localization; Outlook; Atomic Engineering; Classical Limit of Quantum Mechanics; Further Applications
 AcknowledgementsReferences; Photonic State Tomography; State Representation; Representation of SingleQubit States; Pure States, Mixed States, and Diagonal Representations; The Stokes Parameters and the Poincaré Sphere; Representation of Multiple Qubits; Pure States, Mixed States, and Diagonal Representations; Fidelity.; Tangle.; Entropy and the linear entropy.; Multiple Qubit Stokes Parameters; Representation of Nonqubit Systems; Pure, Mixed, and Diagonal Representations; Qudit Stokes Parameters; Tomography of Ideal Systems; SingleQubit Tomography; Visualization of SingleQubit Tomography
 A Mathematical Look at SingleQubit TomographyMultipleQubit Tomography; Tomography of Nonqubit Systems; General Qubit Tomography; Collecting Tomographic Measurements; Projection; Arbitrary SingleQubit Projection; Compensating for Imperfect Waveplates; Wedged waveplates; MultipleQubit Projections and Measurement Ordering; n vs. 2n Detectors; Electronics and Detectors; Collecting Data and Systematic Error Correction; Accidental Coincidences; Beamsplitter Crosstalk; DetectorPair Efficiency Calibration; Intensity Drift; Analyzing Experimental Data; Types of Errors and State Estimation
 The Maximum Likelihood Technique
 Dimensions
 unknown
 Extent
 1 online resource (453 p.)
 Form of item
 online
 Isbn
 9780080460253
 Media category
 computer
 Media type code
 c
 Specific material designation
 remote
 System control number

 (EBL)269722
 (OCoLC)475999002
 (SSID)ssj0000098091
 (PQKBManifestationID)11119307
 (PQKBTitleCode)TC0000098091
 (PQKBWorkID)10141389
 (PQKB)10229592
 (MiAaPQ)EBC269722
 (EXLCZ)991000000000365073
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