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This book provides an introduction to the field of Penning traps and related experimental techniques. It serves both as a primer for those entering the field, and as a quick reference for those working in it. The book is motivated by the observation that often a vast number of different resources have to be explored to gain a good overview of Penning trap principles. This is especially true for students who experience additional difficulty due to the different styles of presentation and notation. This volume provides a broad introductory overview in unified notation.
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This book provides an introduction to the field of Penning traps and related experimental techniques. It serves both as a primer for those entering the field, and as a quick reference for those working in it. The book is motivated by the observation that often a vast number of different resources have to be explored to gain a good overview of Penning trap principles. This is especially true for students who experience additional difficulty due to the different styles of presentation and notation. This volume provides a broad introductory overview in unified notation.
Produktdetails
- Produktdetails
- Springer Series on Atomic, Optical, and Plasma Physics 100
- Verlag: Springer / Springer International Publishing / Springer, Berlin
- Artikelnr. des Verlages: 978-3-319-76263-0
- 1st ed. 2018
- Seitenzahl: 468
- Erscheinungstermin: 10. April 2018
- Englisch
- Abmessung: 241mm x 160mm x 31mm
- Gewicht: 860g
- ISBN-13: 9783319762630
- ISBN-10: 331976263X
- Artikelnr.: 50739894
- Springer Series on Atomic, Optical, and Plasma Physics 100
- Verlag: Springer / Springer International Publishing / Springer, Berlin
- Artikelnr. des Verlages: 978-3-319-76263-0
- 1st ed. 2018
- Seitenzahl: 468
- Erscheinungstermin: 10. April 2018
- Englisch
- Abmessung: 241mm x 160mm x 31mm
- Gewicht: 860g
- ISBN-13: 9783319762630
- ISBN-10: 331976263X
- Artikelnr.: 50739894
The author received his PhD in physics from the University of Mainz in 2001, working with Lutz Schweikhard on molecular ions confined in a Penning trap. He then joined the group of Günter Werth and worked on precision measurements of the bound electron's magnetic moment in Penning traps. He extended this work as a research associate at Imperial College London in the group of Richard Thompson, and later joined Penning trap projects for precision spectroscopy at the GSI Helmholtz-Centre in Darmstadt, Germany.
A Bit of History and Context.- Penning Trap Concept and Implementation.- Hyperbolic and Cylindrical Penning Traps.- Variations on the Penning Trap Concept.- Motion of a Single Particle in an Idealised Trap.- Motion of a Single Particle in a Real Penning Trap.- Inherent Effects of Single-Particle Confinement.- Particle Ensembles in Penning Traps.- Loading a Trap with Particles.- Excitation of Particle Motions.- Resonant Motional Coupling.- Motional Cooling in Penning Traps.- Particle Ensemble Density: Rotating Wall.- The Concept of Image Charges.- Electronic Detection and Frequency Measurement.- Radio-Frequency Spectroscopy: Penning-Trap Mass Spectroscopy.- Radio-Frequency Spectroscopy: Outreach.- Optical Spectroscopy.- Laser-Microwave Double-Resonance Spectroscopy.- Magnetic Bottles as Implemented in Penning Traps.- Application of the Continuous Stern Gerlach Effect.- A: Penning Trap Confinement: The Brief Version.- B: Magnetic Field Creation and Control.- C: Equivalence of Results for Magnetic Bottle Strength.- D: Cryogenics.- E: Collisional Effects in Penning Traps.- F: General Design Considerations.- G: A More Detailed Look at the Potential.- H: A Special Case of Mediated Cooling.
A Bit of History and Context.- Penning Trap Concept and Implementation.- Hyperbolic and Cylindrical Penning Traps.- Variations on the Penning Trap Concept.- Motion of a Single Particle in an Idealised Trap.- Motion of a Single Particle in a Real Penning Trap.- Inherent Effects of Single-Particle Confinement.- Particle Ensembles in Penning Traps.- Loading a Trap with Particles.- Excitation of Particle Motions.- Resonant Motional Coupling.- Motional Cooling in Penning Traps.- Particle Ensemble Density: Rotating Wall.- The Concept of Image Charges.- Electronic Detection and Frequency Measurement.- Radio-Frequency Spectroscopy: Penning-Trap Mass Spectroscopy.- Radio-Frequency Spectroscopy: Outreach.- Optical Spectroscopy.- Laser-Microwave Double-Resonance Spectroscopy.- Magnetic Bottles as Implemented in Penning Traps.- Application of the Continuous Stern Gerlach Effect.- A: Penning Trap Confinement: The Brief Version.- B: Magnetic Field Creation and Control.- C: Equivalence of Results for Magnetic Bottle Strength.- D: Cryogenics.- E: Collisional Effects in Penning Traps.- F: General Design Considerations.- G: A More Detailed Look at the Potential.- H: A Special Case of Mediated Cooling.
A Bit of History and Context.- Penning Trap Concept and Implementation.- Hyperbolic and Cylindrical Penning Traps.- Variations on the Penning Trap Concept.- Motion of a Single Particle in an Idealised Trap.- Motion of a Single Particle in a Real Penning Trap.- Inherent Effects of Single-Particle Confinement.- Particle Ensembles in Penning Traps.- Loading a Trap with Particles.- Excitation of Particle Motions.- Resonant Motional Coupling.- Motional Cooling in Penning Traps.- Particle Ensemble Density: Rotating Wall.- The Concept of Image Charges.- Electronic Detection and Frequency Measurement.- Radio-Frequency Spectroscopy: Penning-Trap Mass Spectroscopy.- Radio-Frequency Spectroscopy: Outreach.- Optical Spectroscopy.- Laser-Microwave Double-Resonance Spectroscopy.- Magnetic Bottles as Implemented in Penning Traps.- Application of the Continuous Stern Gerlach Effect.- A: Penning Trap Confinement: The Brief Version.- B: Magnetic Field Creation and Control.- C: Equivalence of Results for Magnetic Bottle Strength.- D: Cryogenics.- E: Collisional Effects in Penning Traps.- F: General Design Considerations.- G: A More Detailed Look at the Potential.- H: A Special Case of Mediated Cooling.
A Bit of History and Context.- Penning Trap Concept and Implementation.- Hyperbolic and Cylindrical Penning Traps.- Variations on the Penning Trap Concept.- Motion of a Single Particle in an Idealised Trap.- Motion of a Single Particle in a Real Penning Trap.- Inherent Effects of Single-Particle Confinement.- Particle Ensembles in Penning Traps.- Loading a Trap with Particles.- Excitation of Particle Motions.- Resonant Motional Coupling.- Motional Cooling in Penning Traps.- Particle Ensemble Density: Rotating Wall.- The Concept of Image Charges.- Electronic Detection and Frequency Measurement.- Radio-Frequency Spectroscopy: Penning-Trap Mass Spectroscopy.- Radio-Frequency Spectroscopy: Outreach.- Optical Spectroscopy.- Laser-Microwave Double-Resonance Spectroscopy.- Magnetic Bottles as Implemented in Penning Traps.- Application of the Continuous Stern Gerlach Effect.- A: Penning Trap Confinement: The Brief Version.- B: Magnetic Field Creation and Control.- C: Equivalence of Results for Magnetic Bottle Strength.- D: Cryogenics.- E: Collisional Effects in Penning Traps.- F: General Design Considerations.- G: A More Detailed Look at the Potential.- H: A Special Case of Mediated Cooling.