Laser spectroscopy of indium Rydberg atom bunches by electric field ionization

This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization tec...

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Published in:Scientific reports Vol. 10; no. 1; p. 12306
Main Authors: Vernon, A. R., Ricketts, C. M., Billowes, J., Cocolios, T. E., Cooper, B. S., Flanagan, K. T., Garcia Ruiz, R. F., Gustafsson, F. P., Neyens, G., Perrett, H. A., Sahoo, B. K., Wang, Q., Waso, F. J., Yang, X. F.
Format: Journal Article
Language:English
Published: London Nature Publishing Group UK 23.07.2020
Nature Publishing Group
Subjects:
639/766/36/1122
639/766/387/1126
639/766/930/527
ATOMIC AND MOLECULAR PHYSICS
Electric fields
electronic structure of atoms and molecules
experimental nuclear physics
Humanities and Social Sciences
Indium
Ionization
Ions
Isotopes
Lasers
multidisciplinary
optical spectroscopy
Science
Science (multidisciplinary)
Spectroscopy
Spectrum analysis
ISSN:2045-2322, 2045-2322
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Abstract This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the 5s 2 5d 2 D 5 / 2 and 5s 2 5d 2 D 3 / 2 states to 5s 2 n p  2 P and 5s 2 n f 2 F Rydberg states, up to a principal quantum number of n = 72 . The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be 46 , 670.107 ( 4 ) cm - 1 . The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the 5s 2 5d 2 D 5 / 2 and 5s 2 5d 2 D 3 / 2 states were determined for 113 , 115 In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.
AbstractList This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the $$\text {5s}^2\text {5d}\,^2\text {D}_{5/2}$$ 5s25d2D5/2 and $$\text {5s}^2\text {5d}\,^2\text {D}_{3/2}$$ 5s25d2D3/2 states to $$\text {5s}^2n$$ 5s2np  $$^2$$ 2P and $$\text {5s}^2n\text {f}\,^2$$ 5s2nf2F Rydberg states, up to a principal quantum number of $$n=72$$ n=72. The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be $$46,670.107(4)\,\hbox {cm}^{-1}$$ 46,670.107(4)cm-1. The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the $$\text {5s}^2\text {5d}\,^2\text {D}_{5/2}$$ 5s25d2D5/2 and $$\text {5s}^2\text {5d}\,^2\text {D}_{3/2}$$ 5s25d2D3/2 states were determined for $$^{113,115}$$ 113,115In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.
This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the 5s 2 5d 2 D 5 / 2 and 5s 2 5d 2 D 3 / 2 states to 5s 2 n p  2 P and 5s 2 n f 2 F Rydberg states, up to a principal quantum number of n = 72 . The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be 46 , 670.107 ( 4 ) cm - 1 . The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the 5s 2 5d 2 D 5 / 2 and 5s 2 5d 2 D 3 / 2 states were determined for 113 , 115 In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.
This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the $$\text {5s}^2\text {5d}\,^2\text {D}_{5/2}$$ 5s 2 5d 2 D 5 / 2 and $$\text {5s}^2\text {5d}\,^2\text {D}_{3/2}$$ 5s 2 5d 2 D 3 / 2 states to $$\text {5s}^2n$$ 5s 2 n p  $$^2$$ 2 P and $$\text {5s}^2n\text {f}\,^2$$ 5s 2 n f 2 F Rydberg states, up to a principal quantum number of $$n=72$$ n = 72 . The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be $$46,670.107(4)\,\hbox {cm}^{-1}$$ 46 , 670.107 ( 4 ) cm - 1 . The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the $$\text {5s}^2\text {5d}\,^2\text {D}_{5/2}$$ 5s 2 5d 2 D 5 / 2 and $$\text {5s}^2\text {5d}\,^2\text {D}_{3/2}$$ 5s 2 5d 2 D 3 / 2 states were determined for $$^{113,115}$$ 113 , 115 In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.
This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the [Formula: see text] and [Formula: see text] states to [Formula: see text]p [Formula: see text]P and [Formula: see text]F Rydberg states, up to a principal quantum number of [Formula: see text]. The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be [Formula: see text]. The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the [Formula: see text] and [Formula: see text] states were determined for [Formula: see text]In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the [Formula: see text] and [Formula: see text] states to [Formula: see text]p [Formula: see text]P and [Formula: see text]F Rydberg states, up to a principal quantum number of [Formula: see text]. The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be [Formula: see text]. The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the [Formula: see text] and [Formula: see text] states were determined for [Formula: see text]In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.
This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the 5s25d2D5/2 and 5s25d2D3/2 states to 5s2np 2P and 5s2nf2F Rydberg states, up to a principal quantum number of n=72. The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be 46,670.107(4)cm-1. The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the 5s25d2D5/2 and 5s25d2D3/2 states were determined for 113,115In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.
This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic beams in a collinear geometry. In combination with multi-step resonant excitation to Rydberg states using pulsed lasers, the field ionization technique demonstrates increased sensitivity for isotope separation and measurement of atomic parameters over previous non-resonant laser ionization methods. The setup was tested at the Collinear Resonance Ionization Spectroscopy experiment at ISOLDE-CERN to perform high-resolution measurements of transitions in the indium atom from the 5s25d2D5/2 and 5s25d2D3/2 states to 5s2np 2P and 5s2nf2 F Rydberg states, up to a principal quantum number of n=72 . The extracted Rydberg level energies were used to re-evaluate the ionization potential of the indium atom to be 46,670.107(4)cm-1. The nuclear magnetic dipole and nuclear electric quadrupole hyperfine structure constants and level isotope shifts of the 5s25d2D5/2 and 5s25d2D3/2 states were determined for 113,115In. The results are compared to calculations using relativistic coupled-cluster theory. A good agreement is found with the ionization potential and isotope shifts, while disagreement of hyperfine structure constants indicates an increased importance of electron correlations in these excited atomic states. With the aim of further increasing the detection sensitivity for measurements on exotic isotopes, a systematic study of the field-ionization arrangement implemented in the work was performed at the same time and an improved design was simulated and is presented. The improved design offers increased background suppression independent of the distance from field ionization to ion detection.
ArticleNumber 12306
Author Sahoo, B. K.
Neyens, G.
Wang, Q.
Gustafsson, F. P.
Cooper, B. S.
Waso, F. J.
Billowes, J.
Garcia Ruiz, R. F.
Flanagan, K. T.
Yang, X. F.
Perrett, H. A.
Vernon, A. R.
Cocolios, T. E.
Ricketts, C. M.
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  organization: School of Physics and Astronomy, The University of Manchester
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  surname: Billowes
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  organization: School of Physics and Astronomy, The University of Manchester
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  organization: Instituut voor Kern- en Stralingsfysica, KU Leuven, EP Department, CERN
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  organization: School of Nuclear Science and Technology, Lanzhou University
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  fullname: Waso, F. J.
  organization: Stellenbosch University
– sequence: 14
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  surname: Yang
  fullname: Yang, X. F.
  organization: School of Physics and State Key Laboratory of Nuclear Physics and Technology, Peking University
BackLink https://www.osti.gov/servlets/purl/1817137$$D View this record in Osti.gov
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Snippet This work reports on the application of a novel electric field-ionization setup for high-resolution laser spectroscopy measurements on bunched fast atomic...
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SubjectTerms 639/766/36/1122
639/766/387/1126
639/766/930/527
ATOMIC AND MOLECULAR PHYSICS
Electric fields
electronic structure of atoms and molecules
experimental nuclear physics
Humanities and Social Sciences
Indium
Ionization
Ions
Isotopes
Lasers
multidisciplinary
optical spectroscopy
Science
Science (multidisciplinary)
Spectroscopy
Spectrum analysis
Title Laser spectroscopy of indium Rydberg atom bunches by electric field ionization
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https://pubmed.ncbi.nlm.nih.gov/PMC7378087
Volume 10
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