NIST Physical Measurement Laboratory Publications on Atomic Energy Levels
of any type
National Institute of Standards and Technology NIST Physical Measurement Laboratory Author included: G. Nave

76 references found

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Kramida, A. (2018). Atomic Energy Levels and Spectra Bibliographic Database (version 2.0). [Online] Available: https://physics.nist.gov/Elevbib [October 2, 2018]. National Institute of Standards and Technology, Gaithersburg, MD; DOI: 10.18434/T40K53,
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New Ritz Wavelengths and Transition Probabilities for Parity-Forbidden, Singly Ionised Nickel [Ni II] Lines of Astrophysical Interest,
C. P. Clear, P. Uylings, T. Raassen, G. Nave, and J. C. Pickering,
Mon. Not. R. Astron. Soc. 519, 4040–4046 (2023)
DOI:

Wavelengths and Energy Levels of the Upper Levels of Singly Ionized Nickel (Ni II) from 3d8(3F)5f to 3d8(3F)9s,
C. P. Clear, G. Nave, P. Uylings, and T. Raassen,
Astrophys. J., Suppl. Ser. 269, 36 (2023)
DOI:

Wavelengths and Energy Levels of Singly Ionized Nickel (Ni II) Measured Using Fourier Transform Spectroscopy,
C. P. Clear, J. C. Pickering, G. Nave, P. Uylings, and T. Raassen,
Astrophys. J., Suppl. Ser. 261, 35 (2022)
DOI:

Hyperfine Structure Constants of Sc I and Sc II with Fourier Transform Spectroscopy,
 Hala and G. Nave,
Astrophys. J., Suppl. Ser. 259, 17 (2022)
DOI:

Reference Wavelengths of Si II, C II, Fe I, and Ni II for Quasar Absorption Spectroscopy,
G. Nave and C. Clear,
Mon. Not. R. Astron. Soc. 502, 5679–5685 (2021)
DOI:

The Spectrum and Term Analysis of Singly Ionized Manganese,
F. S. Liggins, J. C. Pickering, G. Nave, J. W. Ward, and W.-Ü L. Tchang-Brillet,
Astrophys. J., Suppl. Ser. 252, 10 (2021)
DOI:

Spectra of Ni V and Fe V in the Vacuum Ultraviolet,
J. W. Ward, A. J. J. Raassen, A. Kramida, and G. Nave,
Astrophys. J., Suppl. Ser. 245, 22 (2019)
DOI:

Transition Probabilities of Sc I and Sc II and Scandium Abundances in the Sun, Arcturus, and HD 84937,
J. E. Lawler,  Hala, C. Sneden, G. Nave, M. P. Wood, and J. J. Cowan,
Astrophys. J., Suppl. Ser. 241, 21 (2019)
DOI:

State of the Profession Considerations for Laboratory Astrophysics (Astro2020 APC White Paper),
D. W. Savin, J. F. Babb, P. Barklem, P. M. Bellan, G. Betancourt-Martinez, J. Blum, C. Boersma, M. D. Boryta, J. Brisset, C. Brogan, J. Cami, P. Caselli, A. Chutjian, L. Corrales, K. Crabtree, G. Dominguez, S. R. Federman, C. J. Fontes, R. Freedman, L. Gavilan-Marin, B. Gibson, L. Golub, T. W. Gorczyca, M. Hahn, D. Hartmann, S. M. Hörst, R. L. Hudson, H.-T. Ji, H. Kreckel, J. Kuhn, J. E. Lawler, T. J. Lee, M. A. Leutenegger, R. Mancini, J. P. Marler, L. I. Mashonkina, M. C. McCarthy, M. McCoustra, B. A. McGuire, S. N. Milam, M. H. Montgomery, N. A. Murphy, G. Nave, R. M. Nelson, K. M. Nollett, A. A. Norton, O. Novotný, A. Papol, J. C. Raymond, F. Salama, E. M. Sciamma-O'Brien, R. Smith, C. Sosolik, C. Sousa-Silva, A. Spyrou, P. C. Stancil, K.-Y. Sung, J. Tennyson, F. Timmes, V. L. Trimble, O. Venot, G. Wahlgren, B. J. Wargelin, D. Winget, and M. P. Wood,
Bull. Am. Astron. Soc. 51(7), 007 (2019)

Transition Probabilities of Co II Weak Lines to the Ground and Low Metastable Levels,
J. E. Lawler, T. Feigenson, C. Sneden, J. J. Cowan, and G. Nave,
Astrophys. J., Suppl. Ser. 238, 7 (2018)
DOI:

Vanadium Transitions in the Spectrum of Arcturus,
M. P. Wood, C. Sneden, J. E. Lawler, E. A. Den Hartog, J. J. Cowan, and G. Nave,
Astrophys. J., Suppl. Ser. 234, 25 (2018)
DOI:

Comprehensive Atomic Wavelengths, Energy Levels, and Hyperfine Structure for Singly Ionized Iron-Group Elements,
G. Nave, C. J. Sansonetti, K. Townley-Smith, J. C. Pickering, A. P. Thorne, F. Liggins, and C. Clear,
Can. J. Phys. 95, 811–816 (2017)
DOI:

Evaluation of Resolution and Periodic Errors of a Flatbed Scanner Used for Digitizing Spectroscopic Photographic Plates,
M. Wyatt and G. Nave,
Appl. Opt. 56, 3744–3749 (2017)
DOI:

The Cu II Spectrum,
A. Kramida, G. Nave, and J. Reader,
Atoms 5, 9 (2017)
DOI:
(NIST compilation)

Hyperfine Structure Constants for Singly Ionized Manganese (Mn II) Using Fourier Transform Spectroscopy,
K. Townley-Smith, G. Nave, J. C. Pickering, and R. J. Blackwell-Whitehead,
Mon. Not. R. Astron. Soc. 461, 73–78 (2016)
DOI:

The Spectrum and Term Analysis of Co III Measured Using Fourier Transform and Grating Spectroscopy,
D. G. Smillie, J. C. Pickering, G. Nave, and P. L. Smith,
Astrophys. J., Suppl. Ser. 223, 12 (2016)
DOI:

Division B Commission 14 Working Group: Atomic Data,
G. Nave, S. Nahar, and G. Zhao,
Proc. IAU 11, 103–119 (2015)
DOI:

Improved Wavelengths of Fe V and Ni V for Analysis of Spectra of White Dwarf Stars,
J. Ward and G. Nave,
Proc. IAU 11(A29A), p. E8 (2015)
DOI:

Wavelengths, Energy Levels and Hyperfine Structure of Mn II and Sc II,
G. Nave, J. C. Pickering, K. I. Townley-Smith, and  Hala,
Proc. IAU 11(A29A), p. E9 (2015)
DOI:

New Laboratory Atomic Data for Neutral, Singly, and Doubly Ionised Iron Group Elements for Astrophysics Applications,
J. C. Pickering, G. Nave, F. Liggins, C. Clear, M. Ruffoni, and C. Sansonetti,
Proc. IAU 11(A29A), p. E10 (2015)
DOI:

Fe I Oscillator Strengths for the Gaia-ESO Survey,
M. P. Ruffoni, E. A. Den Hartog, J. E. Lawler, N. R. Brewer, K. Lind, G. Nave, and J. C. Pickering,
Mon. Not. R. Astron. Soc. 441, 3127–3136 (2014)
DOI:

Extended Analysis of the Spectrum of Singly Ionized Chromium (Cr II),
C. J. Sansonetti and G. Nave,
Astrophys. J., Suppl. Ser. 213, 28 (2014)
DOI:
(NIST compilation)

The Spectrum of Thorium from 250 nm to 5500 nm: Ritz Wavelengths and Optimized Energy Levels,
S. L. Redman, G. Nave, and C. J. Sansonetti,
Astrophys. J., Suppl. Ser. 211, 4 (2014)
DOI:
(NIST compilation)

Development of Fiber Fabry-Perot Interferometers as Stable Near-infrared Calibration Sources for High Resolution Spectrographs,
S. Halverson, S. Mahadevan, L. Ramsey, F. Hearty, J. Wilson, J. Holtzman, S. Redman, G. Nave, D. Nidever, M. Nelson, N. Venditti, D. Bizyaev, and S. Fleming,
Publ. Astron. Soc. Pac. 126, 445–458 (2014)
DOI:

Atomic Data for Iron-Group Elements of Astrophysical Interest,
G. Nave, C. J. Sansonetti, J. C. Pickering, M. Ruffoni, A. P. Thorne, and F. Liggins,
AIP Conf. Proc. 1545, 27–31 (2013)
DOI:

The Spectrum of Fe II,
G. Nave and S. Johansson,
Astrophys. J., Suppl. Ser. 204, 1 (2013)
DOI:
(NIST compilation)

Near-Infrared Calibration Systems for Precise Radial-Velocity Measurements,
S. L. Redman, F. Kerber, G. Nave, S. Mahadevan, L. W. Ramsey, J. Smoker, H.-U. Käufl, and P. R. L. Figueira,
Proc. SPIE 8446, p. 84468G (2012)
DOI:

Wavelengths of Fe II Lines for Studies of Time Variation of the Fine-Structure Constant,
G. Nave,
Mon. Not. R. Astron. Soc. 420, 1570–1574 (2012)
DOI:

Comprehensive Observations of the Ultraviolet Spectrum and Improved Energy Levels for Singly Ionized Chromium (Cr II),
C. J. Sansonetti, G. Nave, J. Reader, and F. Kerber,
Astrophys. J., Suppl. Ser. 202, 15 (2012)
DOI:

A High-Resolution Atlas of Uranium-Neon in the H Band,
S. L. Redman, G. S. Ycas, R. Terrien, S. Mahadevan, L. W. Ramsey, C. F. Bender, S. N. Osterman, S. A. Diddams, F. Quinlan, J. E. Lawler, and G. Nave,
Astrophys. J., Suppl. Ser. 199, 2 (2012)
DOI:

Lifetime and Failure Characteristics of Pt/Ne Hollow Cathode Lamps Used as Calibration Sources for UV Space Instruments,
G. Nave, C. J. Sansonetti, S. V. Penton, N. Cunningham, M. Beasley, S. Osterman, F. Kerber, C. D. Keyes, and M. R. Rosa,
Publ. Astron. Soc. Pac. 124, 1295–1308 (2012)
DOI:

The Infrared Spectrum of Uranium Hollow Cathode Lamps from 850 nm to 4000 nm: Wavenumbers and Line Identifications from Fourier Transform Spectra,
S. L. Redman, J. E. Lawler, G. Nave, L. W. Ramsey, and S. Mahadevan,
Astrophys. J., Suppl. Ser. 195, 24 (2011)
DOI:

Use of Phosphor Image Plates for Measuring Intensities in Vacuum Ultraviolet Spectra,
G. Nave, C. J. Sansonetti, C. I. Szabo, J. J. Curry, and D. G. Smillie,
Rev. Sci. Instrum. 82, 013107 (2011)
DOI:

Wavelengths of the 3d6(5D)4s a6D - 3d5(6S)4s4p y6P Multiplet of Fe II (UV 8),
G. Nave and C. J. Sansonetti,
J. Opt. Soc. Am. B 28, 737–745 (2011)
DOI:

Studies of the Spectrum of Chromium for Calibration of STIS and Interpretation of Astrophysical Spectra,
C. J. Sansonetti and G. Nave,
in Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, p. C-12 (Edited by D. R. Schultz, Gatlinburg, Tennessee, 2011)

A Comprehensive Analysis of the Spectrum of Fe II,
G. Nave,
in Proceedings of the 2010 NASA Laboratory Astrophysics Workshop, p. C-14 (Edited by D. R. Schultz, Gatlinburg, Tennessee, 2011)

Wavelengths, Transition Probabilities, and Energy Levels for the Spectrum of Neutral Strontium (Sr I),
J. E. Sansonetti and G. Nave,
J. Phys. Chem. Ref. Data 39, 033103 (2010)
DOI:
(NIST compilation)

Astronomical Spectroscopy: Calibration Sources for the Near Infrared,
F. Kerber, M. Aldenius, G. Nave, C. J. Sansonetti, and Yu. Ralchenko,
AIP Conf. Proc. 1125, 94–103 (2009)
DOI:

From Laboratory to the Sky: Th–Ar Wavelength Standards for the Cryogenic Infrared Echelle Spectrograph (CRIRES),
F. Kerber, G. Nave, C. J. Sansonetti, and P. Bristow,
Phys. Scr. T134, 014007 (2009)
DOI:

Wavelengths, Energy Levels and Hyperfine Structure Constants in Ho II,
J. Gurell, G. M. Wahlgren, G. Nave, and J.-F. Wyart,
Phys. Scr. 79, 035306 (2009)
DOI:

Wavelength Calibration Sources for Instruments on Extremely Large Telescopes,
M. Aldenius, F. Kerber, P. Bristow, G. Nave, Y. Ralchenko, and C. J. Sansonetti,
Proc. SPIE 7014, p. 70145U (2008)
DOI:

Observations of Pt/Ne Hollow Cathode Lamps Similar to Those Used on the Cosmic Origins Spectrograph: Photometry and Vacuum Testing.
S. V. Penton, N. Cunningham, M. Beasley, S. Osterman, F. Kerber, G. Nave, C. J. Sansonetti, C. D. Keyes, and M. R. Rosa,
Proc. SPIE 7011, p. 70113M (2008)
DOI:

Observations of Pt/Ne Hollow Cathode Lamps Similar to Those Used on the Cosmic Origins Spectrograph: Spectroscopy and Air Testing,
G. Nave, C. J. Sansonetti, F. Kerber, S. V. Penton, and M. R. Rosa,
Proc. SPIE 7011, p. 70113L (2008)
DOI:

The Spectrum of Th-Ar Hollow Cathode Lamps in the 691-5804 nm Region: Establishing Wavelength Standards Calibration of Infrared Spectrographs,
F. Kerber, G. Nave, and C. J. Sansonetti,
Astrophys. J., Suppl. Ser. 178, 374–381 (2008)
DOI:

In Search of the s-Process in Cool Supergiants: A Vital Role for Laboratory Astrophysics,
G. M. Wahlgren, G. Nave, H. Nilsson, and M. Lundqvist,
J. Phys.: Conf. Ser. 130, 012019 (2008)
DOI:

Wavelength Standards for IR Spectrographs at ESO,
F. Kerber, G. Nave, C. J. Sansonetti, P. Bristow, and M. R. Rosa,
in Astronomical Spectroscopy and Virtual Observatory, Proceedings of the EURO-VO Workshop, held at the European Space Astronomy Centre of ESA, Villafranca del Castillo, Spain, 21–23 March, 2007, 155–158 (Edited by M. Guainazzi and P. Osuna, European Space Agency, 2008)

The Spectrum of Th-Ar Hollow Cathode Lamps in the 900–4500 nm Region: Establishing Wavelength Standards for the Calibration of VLT Spectrographs,
F. Kerber, G. Nave, C. J. Sansonetti, P. Bristow, A. Rosa, H.-U. Käufl, and M. R. Rosa,
Proc. SPIE 6269, p. 62692O (2006)
DOI:

Performance of the GHRS Pt-Ne Hollow-Cathode Lamps After Their Return from Space and Comparison with Archival Data,
F. Kerber, D. Lindler, P. Bristow, G. Nave, J. Reader, C. J. Sansonetti, D. Lembke, S. R. Heap, M. R. Rosa, and H. J. Wood,
in Proc. SPIE, Space Telescopes and Instrumentation II: Ultraviolet to Gamma Ray, Vol. 6266, p. 62663a (Edited by M. J. L. Turner and G. Hasinger, 2006)
DOI:

Experimental Ti I Oscillator Strengths and Their Application to Cool Star Analysis,
R. J. Blackwell-Whitehead, H. Lundberg, G. Nave, J. C. Pickering, H. R. A. Jones, Y. Lyubchik, Y. V. Pavlenko, and S. Viti,
Mon. Not. R. Astron. Soc. 373, 1603–1609 (2006)
DOI:

The Ne II Spectrum,
A. E. Kramida and G. Nave,
Eur. Phys. J. D 39, 331–350 (2006)
DOI:
(NIST compilation)

New FTS Measurements, Optimized Energy Levels and Refined VUV Standards in the Ne III Spectrum,
A. E. Kramida and G. Nave,
Eur. Phys. J. D 37, 1–21 (2006)
DOI:
(NIST compilation)

Characterization of Pt/Cr-Ne Hollow-Cathode Lamps for Wavelength Standards in Space Astronomy,
F. Kerber, P. Bristow, M. R. Rosa, G. Nave, J. Reader, C. J. Sansonetti, and G. Lercher,
in The 2005 HST Calibration Workshop: Hubble After the Transition to Two-Gyro Mode, Proceedings of a Workshop Held at the Space Telescope Science Institute, Baltimore, Maryland, October 26-28, 2005, 318–323 (Edited by A. M. Koekemoer, P. Goudfrooij, and L. L. Dressel, NASA Goddard Space Flight Center, Greenbelt, MD, USA, 2006)

Experimental Oscillator Strengths for the Spectrum of Neutral Manganese,
R. J. Blackwell-Whitehead, H. L. Xu, J. C. Pickering, G. Nave, and H. Lundberg,
Mon. Not. R. Astron. Soc. 361, 1281–1286 (2005)
DOI:

Hyperfine Structure Measurements of Neutral Manganese with Fourier Transform Spectroscopy,
R. J. Blackwell-Whitehead, J. C. Pickering, O. Pearse, and G. Nave,
Astrophys. J., Suppl. Ser. 157, 402–409 (2005)
DOI:

Atomic Oscillator Strengths in the Vacuum Ultraviolet Using Fourier Transform and Grating Spectroscopy,
G. Nave, Z. Li, C. J. Sansonetti, U. Griesmann, and A. D. Fried,
Phys. Scr. T119, 35–39 (2005)
DOI:

Reference Wavelengths in the Spectra of Fe, Ge, and Pt in the Region Near 1935 Å,
G. Nave and C. J. Sansonetti,
J. Opt. Soc. Am. B 21, 442–453 (2004)
DOI:

Spectral Characterization of HST Calibration Lamps: New Pt/Cr-Ne Line Catalogues and Ageing Test,
F. Kerber, M. R. Rosa, C. J. Sansonetti, J. Reader, G. Nave, P. Bristow, M. Fiorentino, and G. Lercher,
in UV and Gamma Ray Space Telescope Systems, Proc. SPIE 5488, 679–690 (Edited by G. Hasinger and M. J. L. Turner, 2004)
DOI:

Stark Shifts and Improved Energy Levels in Spectra of Singly and Doubly Ionized Neon,
A. Kramida and G. Nave,
in Abstracts of the 35th Meeting of the Division of Atomic, Molecular and Optical Physics of the American Physical Society, May 25-29, 2004, Tuscon, AZ, p. D1-003 (American Physical Society, 2004)

Atomic Transition Rates for Neutral Holmium (Ho I),
G. Nave,
J. Opt. Soc. Am. B 20, 2193–2202 (2003)
DOI:

Absolute Transition Rates for Transitions from 5p Levels in Kr II,
K. Dzierżęga, U. Griesmann, G. Nave, and L. Bratasz,
Phys. Scr. 63, 209–218 (2001)
DOI:

Atomic Transition Probabilities for Dy I and Dy II,
M. E. Wickliffe, J. E. Lawler, and G. Nave,
J. Quant. Spectrosc. Radiat. Transfer 66, 363–404 (2000)
DOI:

Accurate Transition Probabilities for the 5p–5s Transitions in Kr I,
K. Dzierżęga, U. Volz, G. Nave, and U. Griesmann,
Phys. Rev. A 62, 022505 (2000)
DOI:

New Energy Levels and Classifications of Spectral Lines from Neutral and Singly-Ionized Dysprosium (Dy I and Dy II),
G. Nave and U. Griesmann,
Phys. Scr. 62, 463–473 (2000)
DOI:

Accurate Measurements of Atomic Transition Wavelengths and Branching Fractions Using Fourier Transform Spectrometry and Progress on the NIST VUV-Fourier Transform Spectrometer,
U. Griesmann, G. Nave, K. Dzierzega, and W. L. Wiese,
in Laboratory Space Science Workshop, 139–142 (Cambridge, MA, 1998)

Precision Vacuum-Ultraviolet Wavelengths of Fe II Measured by Fourier-Transform and Grating Spectrometry,
G. Nave, S. Johansson, and A. P. Thorne,
J. Opt. Soc. Am. B 14, 1035–1042 (1997)
DOI:

Progress on the NIST IR-Vis-UV Fourier Transform Spectrometer,
G. Nave, C. J. Sansonetti, and U. Griesmann,
in Fourier Transform Spectroscopy 1997 (Santa Fe, New Mexico, U.S., 1–12 February 1997), p. FMC3 (Optica Publishing Group, 1997)
DOI:

Interpretation of Anomalous Ultraviolet Transitions of Fe II Observed in Laboratory Fourier Transform Spectra and Stellar HST and IUE Spectra,
S. Johansson, T. Brage, D. S. Leckrone, G. Nave, and G. M. Wahlgren,
Astrophys. J. 446, 361–370 (1995)
DOI:

High Excitation Rydberg Levels of Fe I from the ATMOS Solar Spectrum at 2.5 and 7 μm.
W. G. Schoenfeld, E. S. Chang, M. Geller, S. Johansson, G. Nave, A. J. Sauval, and N. Grevesse,
Astron. Astrophys. 301, 593–601 (1995)

Analysis of the 3d64s(6D)4f-5g Supermultiplet of Fe I in Laboratory and Solar Infrared Spectra,
S. Johansson, G. Nave, M. Geller, A. J. Sauval, N. Grevesse, W. G. Schoenfeld, E. S. Chang, and C. B. Farmer,
Astrophys. J. 429, 419–426 (1994)
DOI:

A New Multiplet Table for Fe I,
G. Nave, S. Johansson, R. C. M. Learner, A. P. Thorne, and J. W. Brault,
Astrophys. J., Suppl. Ser. 94, 221–459 (1994)
DOI:

Analysis of the 3d64s(6D)6d Subconfiguration of Fe I by Laser-Enhanced Ionisation and Emission Spectroscopy,
G. Nave, S. Johansson, O. Axner, P. Ljungberg, Y. Malmsten, and B. Baschek,
Phys. Scr. 49, 581–587 (1994)
DOI:

Analysis of Very High-Excitation Fe I Lines (4f-5g) in the Solar Infrared Spectrum,
S. Johansson, G. Nave, M. Geller, A. J. Sauval, and N. Grevesse,
in Infrared Solar Physics, Proceedings of the 154th Symposium of the IAU, Tucson, AZ, March 2-6, 1992, 543–548 (Edited by D. M. Rabin, J. T. Jefferies, and C. Lindsey, Kluwer Academic Publishers, Dordrecht, Holland, 1994)

Highly-Excited Levels of Fe I Obtained From Laboratory and Solar Fourier Transform and Grating Spectra. I. Energy Levels,
G. Nave and S. Johansson,
Astron. Astrophys. 274, 961–967 (1993)

Highly-Excited Levels of Fe I Obtained From Laboratory and Solar Fourier Transform and Grating Spectra. II. Laboratory and Solar Identifications,
G. Nave and S. Johansson,
Astron. Astrophys., Suppl. Ser. 102, 269–314 (1993)

Precision Fe I and Fe II Wavelengths in the Red and Infra-red Spectrum of the Iron-Neon Hollow Cathode Lamp,
G. Nave, R. C. M. Learner, J. E. Murray, A. P. Thorne, and J. W. Brault,
J. Phys. II (France) 2, 913–929 (1992)
DOI:

Precision Fe I and Fe II Wavelengths in the Ultraviolet Spectrum of the Iron-Neon Hollow-Cathode Lamp,
G. Nave, R. C. M. Learner, A. P. Thorne, and C. J. Harris,
J. Opt. Soc. Am. B 8, 2028–2041 (1991)
DOI:

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