Measurement of a hyperfine-induced spin-exchange frequency shift in atomic hydrogen

We have measured a hyperfine-induced spin-exchange frequency shift in the atomic-hydrogen ground-state hyperfine transition. A recent quantum-mechanical treatment of low-energy hydrogen-hydrogen scattering by Koelman {ital et} {ital al}. (Phys. Rev. A 38, 3535 (1988)) predicts such frequency shifts...

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Veröffentlicht in:	Physical review. A, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 1992-09, Vol.46 (5), p.2495-2512
Hauptverfasser:	WALSWORTH, R. L, SILVERA, I. F, MATTISON, E. M, VESSOT, R. F. C
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Schlagworte:	426002 > Engineering-- Lasers & Masers-- (1990-) AMPLIFIERS Applied sciences ATOM COLLISIONS ATOM-ATOM COLLISIONS ATOMIC AND MOLECULAR PHYSICS COLLISIONS CONTROL ELECTRONIC EQUIPMENT Electronic tubes, masers Electronics ELEMENTS ENGINEERING Exact sciences and technology FREQUENCY CONTROL FREQUENCY MEASUREMENT HYDROGEN HYPERFINE STRUCTURE MASERS MICROWAVE AMPLIFIERS MICROWAVE EQUIPMENT NONMETALS 664100 > Theory of Electronic Structure of Atoms & Molecules-- (1992-) RELAXATION TIME SPECTRAL SHIFT SPIN EXCHANGE
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container_title	Physical review. A, Atomic, molecular, and optical physics
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creator	WALSWORTH, R. L SILVERA, I. F MATTISON, E. M VESSOT, R. F. C
description	We have measured a hyperfine-induced spin-exchange frequency shift in the atomic-hydrogen ground-state hyperfine transition. A recent quantum-mechanical treatment of low-energy hydrogen-hydrogen scattering by Koelman {ital et} {ital al}. (Phys. Rev. A 38, 3535 (1988)) predicts such frequency shifts to become large at low temperature, and to affect the performance of atomic clocks such as the cryogenic hydrogen maser. The experiment reported here was performed with a hydrogen maser operating near room temperature, where the reported hyperfine effects are predicted to be small, but measurable. Using an adiabatic fast passage (AFP) technique to vary the incoming atomic population in the masing states from approximately 100% (AFP on) to 50% (AFP off), we determined the change in the dimensionless hyperfine-induced frequency-shift parameter {Omega} to be {Omega}{sub on}{minus}{Omega}{sub off}=5.38 (1.06){times}10{sup {minus}4}. The theoretical prediction at this temperature is {Omega}{sub on}{minus}{Omega}{sub off}={minus}0.76{times}10{sup {minus}4} to {minus}1.12{times}10{sup {minus}4}, for the range of masing-state populations used in the present experiment. We review the relevant theory, report our experimental method and results, and discuss possible reasons for the discrepancy between experiment and theory.
doi_str_mv	10.1103/PhysRevA.46.2495
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Using an adiabatic fast passage (AFP) technique to vary the incoming atomic population in the masing states from approximately 100% (AFP on) to 50% (AFP off), we determined the change in the dimensionless hyperfine-induced frequency-shift parameter {Omega} to be {Omega}{sub on}{minus}{Omega}{sub off}=5.38 (1.06){times}10{sup {minus}4}. The theoretical prediction at this temperature is {Omega}{sub on}{minus}{Omega}{sub off}={minus}0.76{times}10{sup {minus}4} to {minus}1.12{times}10{sup {minus}4}, for the range of masing-state populations used in the present experiment. 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L</creatorcontrib><creatorcontrib>SILVERA, I. F</creatorcontrib><creatorcontrib>MATTISON, E. M</creatorcontrib><creatorcontrib>VESSOT, R. F. C</creatorcontrib><title>Measurement of a hyperfine-induced spin-exchange frequency shift in atomic hydrogen</title><title>Physical review. A, Atomic, molecular, and optical physics</title><addtitle>Phys Rev A</addtitle><description>We have measured a hyperfine-induced spin-exchange frequency shift in the atomic-hydrogen ground-state hyperfine transition. A recent quantum-mechanical treatment of low-energy hydrogen-hydrogen scattering by Koelman {ital et} {ital al}. (Phys. Rev. A 38, 3535 (1988)) predicts such frequency shifts to become large at low temperature, and to affect the performance of atomic clocks such as the cryogenic hydrogen maser. The experiment reported here was performed with a hydrogen maser operating near room temperature, where the reported hyperfine effects are predicted to be small, but measurable. Using an adiabatic fast passage (AFP) technique to vary the incoming atomic population in the masing states from approximately 100% (AFP on) to 50% (AFP off), we determined the change in the dimensionless hyperfine-induced frequency-shift parameter {Omega} to be {Omega}{sub on}{minus}{Omega}{sub off}=5.38 (1.06){times}10{sup {minus}4}. The theoretical prediction at this temperature is {Omega}{sub on}{minus}{Omega}{sub off}={minus}0.76{times}10{sup {minus}4} to {minus}1.12{times}10{sup {minus}4}, for the range of masing-state populations used in the present experiment. We review the relevant theory, report our experimental method and results, and discuss possible reasons for the discrepancy between experiment and theory.</description><subject>426002 -- Engineering-- Lasers & Masers-- (1990-)</subject><subject>AMPLIFIERS</subject><subject>Applied sciences</subject><subject>ATOM COLLISIONS</subject><subject>ATOM-ATOM COLLISIONS</subject><subject>ATOMIC AND MOLECULAR PHYSICS</subject><subject>COLLISIONS</subject><subject>CONTROL</subject><subject>ELECTRONIC EQUIPMENT</subject><subject>Electronic tubes, masers</subject><subject>Electronics</subject><subject>ELEMENTS</subject><subject>ENGINEERING</subject><subject>Exact sciences and technology</subject><subject>FREQUENCY CONTROL</subject><subject>FREQUENCY MEASUREMENT</subject><subject>HYDROGEN</subject><subject>HYPERFINE STRUCTURE</subject><subject>MASERS</subject><subject>MICROWAVE AMPLIFIERS</subject><subject>MICROWAVE EQUIPMENT</subject><subject>NONMETALS 664100 -- Theory of Electronic Structure of Atoms & Molecules-- (1992-)</subject><subject>RELAXATION TIME</subject><subject>SPECTRAL SHIFT</subject><subject>SPIN EXCHANGE</subject><issn>1050-2947</issn><issn>1094-1622</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1992</creationdate><recordtype>article</recordtype><recordid>eNo9kMtr3DAQxkVpSNO0914KpvTQi7d6jGXpGEL6gISGPs5iLI9ilbW8leyS_e_rZbeZywx8v2-Y-Rh7I_hGCK4-3g_78p3-Xm1AbyTY5hm7ENxCLbSUzw9zw2tpoX3BXpbym68Fxp6zc2u5Ad5esB93hGXJNFKaqylUWA37HeUQE9Ux9Yunviq7mGp69AOmB6pCpj8LJb-vyhDDXMVU4TyN0a_OPk8PlF6xs4DbQq9P_ZL9-nTz8_pLffvt89frq9vaq0bOtfLose2ReGd159E0Mqw_6YaT7qRQxiBIgaKhDroWrbYaAAJqb5UGIdQle3fcO5U5uuLjTH7wU0rkZ9dyI8HwFfpwhHZ5Wu8usxtj8bTdYqJpKU6YxgqjJNcryo-oz1MpmYLb5Thi3jvB3SFu9z9uB9od4l4tb0_bl26k_slwynfV3590LB63IWPysTxhoASANeof1lWJMg</recordid><startdate>19920901</startdate><enddate>19920901</enddate><creator>WALSWORTH, R. 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L</creatorcontrib><creatorcontrib>SILVERA, I. F</creatorcontrib><creatorcontrib>MATTISON, E. M</creatorcontrib><creatorcontrib>VESSOT, R. F. C</creatorcontrib><collection>Pascal-Francis</collection><collection>PubMed</collection><collection>CrossRef</collection><collection>MEDLINE - Academic</collection><collection>OSTI.GOV</collection><jtitle>Physical review. A, Atomic, molecular, and optical physics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>WALSWORTH, R. L</au><au>SILVERA, I. F</au><au>MATTISON, E. M</au><au>VESSOT, R. F. C</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Measurement of a hyperfine-induced spin-exchange frequency shift in atomic hydrogen</atitle><jtitle>Physical review. A, Atomic, molecular, and optical physics</jtitle><addtitle>Phys Rev A</addtitle><date>1992-09-01</date><risdate>1992</risdate><volume>46</volume><issue>5</issue><spage>2495</spage><epage>2512</epage><pages>2495-2512</pages><issn>1050-2947</issn><eissn>1094-1622</eissn><coden>PLRAAN</coden><abstract>We have measured a hyperfine-induced spin-exchange frequency shift in the atomic-hydrogen ground-state hyperfine transition. A recent quantum-mechanical treatment of low-energy hydrogen-hydrogen scattering by Koelman {ital et} {ital al}. (Phys. Rev. A 38, 3535 (1988)) predicts such frequency shifts to become large at low temperature, and to affect the performance of atomic clocks such as the cryogenic hydrogen maser. The experiment reported here was performed with a hydrogen maser operating near room temperature, where the reported hyperfine effects are predicted to be small, but measurable. 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subjects	426002 -- Engineering-- Lasers & Masers-- (1990-) AMPLIFIERS Applied sciences ATOM COLLISIONS ATOM-ATOM COLLISIONS ATOMIC AND MOLECULAR PHYSICS COLLISIONS CONTROL ELECTRONIC EQUIPMENT Electronic tubes, masers Electronics ELEMENTS ENGINEERING Exact sciences and technology FREQUENCY CONTROL FREQUENCY MEASUREMENT HYDROGEN HYPERFINE STRUCTURE MASERS MICROWAVE AMPLIFIERS MICROWAVE EQUIPMENT NONMETALS 664100 -- Theory of Electronic Structure of Atoms & Molecules-- (1992-) RELAXATION TIME SPECTRAL SHIFT SPIN EXCHANGE
title	Measurement of a hyperfine-induced spin-exchange frequency shift in atomic hydrogen
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