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Main Authors: Faatz, Nicolas, Engels, Ralf, Breitkreuz, Bernd, Soltner, Helmut, Kannis, Chrysovalantis
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2409.07396
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author Faatz, Nicolas
Engels, Ralf
Breitkreuz, Bernd
Soltner, Helmut
Kannis, Chrysovalantis
author_facet Faatz, Nicolas
Engels, Ralf
Breitkreuz, Bernd
Soltner, Helmut
Kannis, Chrysovalantis
contents Since the early days of quantum mechanics hydrogen, as the simplest of all atoms, has been studied or used to investigate new physics. In parallel, this knowledge leads to different applications, e.g. a spin filter to separate metastable hydrogen atoms in single hyperfine substates with electron spin m_s=1/2. Subsequently, this work provides the necessary theory as well as experimental conditions to build a new generation of spin filter which permits the separation of all four individual metastable hydrogen hyperfine states as well as for its isotopes in a corresponding beam.
format Preprint
id arxiv_https___arxiv_org_abs_2409_07396
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Theoretical development of a new spin filter generation
Faatz, Nicolas
Engels, Ralf
Breitkreuz, Bernd
Soltner, Helmut
Kannis, Chrysovalantis
Atomic Physics
Quantum Physics
Since the early days of quantum mechanics hydrogen, as the simplest of all atoms, has been studied or used to investigate new physics. In parallel, this knowledge leads to different applications, e.g. a spin filter to separate metastable hydrogen atoms in single hyperfine substates with electron spin m_s=1/2. Subsequently, this work provides the necessary theory as well as experimental conditions to build a new generation of spin filter which permits the separation of all four individual metastable hydrogen hyperfine states as well as for its isotopes in a corresponding beam.
title Theoretical development of a new spin filter generation
topic Atomic Physics
Quantum Physics
url https://arxiv.org/abs/2409.07396