[1]

[1] THORNE A P,HARRISC J,WYNNE-JONES I,et al. A Fourier transform spectrometer for the vacuum ultraviolet:design and performance[J]. J. Phys. E,1987,20:54-60.
[2] SANSONETTI C J,NAVE G,READER J,et al.. Comprehensive observations of the ultraviolet spectrum and improved energy levels for singly ionized chromium(Cr Ⅱ)[J]. Astrophys. J. Suppl. Series,2012,202:15.
[3] NAVE G,SANSONETTI C J. Wavelength of the 3d6(5D)4s a6D-3d5(6S)4s4p y6P multiplet of Fe I(UV 8)[J]. J. Opt. Soc. Am. B,2011,28:737-745.
[4] GURELL J,WAHLGREN G M,NAVE G,et al.. Wavelengths, energy levels and hyperfine structure constants in Ho II[J]. Phys. Scr.,2009,79:035306.
[5] KERBER F,LINDLER D,BRISTOW P,et al.. Performance of the GHRS Pt-Ne hollow-cathode lamps after their return from space and comparison with archival data[J]. SPIE,2006,6266:62663A.
[6] NAVE G,LI Z,SANSONETTI C J,et al.. Atomic oscillator strengths in the vacuum ultraviolet using Fourier transform and grating spectroscopy[J]. Phys. Scr.,2005,T119:35-39.
[7] BLACKWELL-WHITEHEAD R J,PICKERING J C,PEARSE O,et al.. Hyperfine structure measurements of neutral manganese with Fourier transform spectroscopy[J]. Astrophys. J. Suppl. Series.,2005,157:402-409.
[8] NAVE G,SANSONETTI C J. Reference wavelengths in the spectra of Fe, Ge, and Pt in the region near 1935 Å[J]. J. Opt. Soc. Am. B,2004,21:442-453.
[9] NAVE G. Atomic transition rates for neutral holmium(Ho I)[J]. J. Opt. Soc. Am. B,2003,20:2193-2202.
[10] IVARSSON S,LITZÉN U,WAHLGREN G M. Accurate wavelengths, oscillator strengths and hyperfine structure in selected praseodymium lines of astrophysical interest[J]. Phys. Scr.,2001,64:455-461.
[11] NAVE G,GRIESMANN U. New energy levels and classifications of spectral lines from neutral and singly-ionized dysprosium(Dy I and Dy II)[J]. Phys. Scr.,2000,62:463-473.
[12] GRIESMANN U,BURNETT J H. Refractivity of nitrogen gas in the vacuum ultraviolet[J]. Opt. Lett.,1999,24:1699-1701.
[13] GRIESMANN U,KLING R,BURNETT J H,et al.. The NIST FT700 vacuum ultraviolet Fourier transform spectrometer:applications in ultraviolet spectrometry and radiometry[J]. SPIE,1999,3818:180-188.
[14] NAVE G,JOHANSSON S,THORNE A P. Precision vacuum-ultraviolet wavelengths of Fe II measured by Fourier-transform and grating spectrometry[J]. J. Opt. Soc. Am. B,1997,14:1035-1042.
[15] NAVE G,JOHANSSON S,AXNER O,et al.. Analysis of the 3d64s(6D)6d subconfiguration of Fe I by laser-enhanced ionisation and emission spectroscopy[J]. Phys. Scr.,1994,49:581-587.
[16] THORNE A. Fourier-transform spectroscopy into the vacuum-ultraviolet[J]. Nature Photon.,2011,5:131-133.
[17] STRONG J,VANASSE G A. Lamellar grating far-infrared interferometer[J]. J. Opt. Soc. Am.,1960,50:113-118.
[18] DE OLIVEIRA N,JOYEUX D.,PHALIPPOU D,et al.. A Fourier transform spectrometer without a beam splitterfor the vacuum ultraviolet range:from the optical design to the first UV spectrum[J]. Rev. Sci. Instrum.,2009,80:43101.
[19] DE OLIVERIA N,ROUDJANE M,JOYEUX D,et al.. High-resolution broad-bandwidth Fourier-transform absorption spectroscopy in the VUV range down to 40 nm[J]. Nature Photon.,2011,5:149-153.
[20] NAHON L,DE OLIVEIRA N,GARCIA G A,et al.. DESIRS:a state-of-the-art VUV beamline featuring high resolution and variable polarization for spectroscopy and dichroism at SOLEIL[J]. J. Synchrotron Rad.,2012,19:508-520.
[21] DE LANGE A,DICKENSON G D,SALUMBIDES E J,et al.. VUV Fourier-transform absorption study of the Lyman and Werner bands in D2[J]. J. Chem. Phys.,2012,136:234310.
[22] UBACHS W,SALUMBIDES E J,EIKEMA K S E,et al.. Novel techniques in VUV high-resolution spectroscopy[J]. J. Electron. Spectrosc. Relat. Phenom.,2014,196:159-164.
[23] HOWELLS M R,FRANK K,HUSSAIN Z,et al.. Toward a soft X-ray Fourier-transform spectrometer[J]. Nucl. Instrum. Methods Phys. Res.,1994,A347:182-191.
[24] MOLER EJ,DUARTE R M,HOWELLS M R,et al.. First measurements using the ALS soft X-ray Fourier transformspectrometer[J]. SPIE,1997,3154:117-122.
[25] AGÅKER M,ANDERSSON J,ENGLUND C J,et al.. Novel instruments for ultra-soft X-ray emission spectroscopy[J]. Nucl. Inst. Meth Phys. Res. A,2009,601:213-219.
[26] AGÅKER M,ANDERSSON J,ENGLUND J C,et al.. Spectroscopy in the vacuum-ultraviolet[J]. Nature Photon.,2011,5:248.

[1] THORNE A P,HARRISC J,WYNNE-JONES I,et al. A Fourier transform spectrometer for the vacuum ultraviolet:design and performance[J]. J. Phys. E,1987,20:54-60.
[2] SANSONETTI C J,NAVE G,READER J,et al.. Comprehensive observations of the ultraviolet spectrum and improved energy levels for singly ionized chromium(Cr Ⅱ)[J]. Astrophys. J. Suppl. Series,2012,202:15.
[3] NAVE G,SANSONETTI C J. Wavelength of the 3d6(5D)4s a6D-3d5(6S)4s4p y6P multiplet of Fe I(UV 8)[J]. J. Opt. Soc. Am. B,2011,28:737-745.
[4] GURELL J,WAHLGREN G M,NAVE G,et al.. Wavelengths, energy levels and hyperfine structure constants in Ho II[J]. Phys. Scr.,2009,79:035306.
[5] KERBER F,LINDLER D,BRISTOW P,et al.. Performance of the GHRS Pt-Ne hollow-cathode lamps after their return from space and comparison with archival data[J]. SPIE,2006,6266:62663A.
[6] NAVE G,LI Z,SANSONETTI C J,et al.. Atomic oscillator strengths in the vacuum ultraviolet using Fourier transform and grating spectroscopy[J]. Phys. Scr.,2005,T119:35-39.
[7] BLACKWELL-WHITEHEAD R J,PICKERING J C,PEARSE O,et al.. Hyperfine structure measurements of neutral manganese with Fourier transform spectroscopy[J]. Astrophys. J. Suppl. Series.,2005,157:402-409.
[8] NAVE G,SANSONETTI C J. Reference wavelengths in the spectra of Fe, Ge, and Pt in the region near 1935 Å[J]. J. Opt. Soc. Am. B,2004,21:442-453.
[9] NAVE G. Atomic transition rates for neutral holmium(Ho I)[J]. J. Opt. Soc. Am. B,2003,20:2193-2202.
[10] IVARSSON S,LITZÉN U,WAHLGREN G M. Accurate wavelengths, oscillator strengths and hyperfine structure in selected praseodymium lines of astrophysical interest[J]. Phys. Scr.,2001,64:455-461.
[11] NAVE G,GRIESMANN U. New energy levels and classifications of spectral lines from neutral and singly-ionized dysprosium(Dy I and Dy II)[J]. Phys. Scr.,2000,62:463-473.
[12] GRIESMANN U,BURNETT J H. Refractivity of nitrogen gas in the vacuum ultraviolet[J]. Opt. Lett.,1999,24:1699-1701.
[13] GRIESMANN U,KLING R,BURNETT J H,et al.. The NIST FT700 vacuum ultraviolet Fourier transform spectrometer:applications in ultraviolet spectrometry and radiometry[J]. SPIE,1999,3818:180-188.
[14] NAVE G,JOHANSSON S,THORNE A P. Precision vacuum-ultraviolet wavelengths of Fe II measured by Fourier-transform and grating spectrometry[J]. J. Opt. Soc. Am. B,1997,14:1035-1042.
[15] NAVE G,JOHANSSON S,AXNER O,et al.. Analysis of the 3d64s(6D)6d subconfiguration of Fe I by laser-enhanced ionisation and emission spectroscopy[J]. Phys. Scr.,1994,49:581-587.
[16] THORNE A. Fourier-transform spectroscopy into the vacuum-ultraviolet[J]. Nature Photon.,2011,5:131-133.
[17] STRONG J,VANASSE G A. Lamellar grating far-infrared interferometer[J]. J. Opt. Soc. Am.,1960,50:113-118.
[18] DE OLIVEIRA N,JOYEUX D.,PHALIPPOU D,et al.. A Fourier transform spectrometer without a beam splitterfor the vacuum ultraviolet range:from the optical design to the first UV spectrum[J]. Rev. Sci. Instrum.,2009,80:43101.
[19] DE OLIVERIA N,ROUDJANE M,JOYEUX D,et al.. High-resolution broad-bandwidth Fourier-transform absorption spectroscopy in the VUV range down to 40 nm[J]. Nature Photon.,2011,5:149-153.
[20] NAHON L,DE OLIVEIRA N,GARCIA G A,et al.. DESIRS:a state-of-the-art VUV beamline featuring high resolution and variable polarization for spectroscopy and dichroism at SOLEIL[J]. J. Synchrotron Rad.,2012,19:508-520.
[21] DE LANGE A,DICKENSON G D,SALUMBIDES E J,et al.. VUV Fourier-transform absorption study of the Lyman and Werner bands in D2[J]. J. Chem. Phys.,2012,136:234310.
[22] UBACHS W,SALUMBIDES E J,EIKEMA K S E,et al.. Novel techniques in VUV high-resolution spectroscopy[J]. J. Electron. Spectrosc. Relat. Phenom.,2014,196:159-164.
[23] HOWELLS M R,FRANK K,HUSSAIN Z,et al.. Toward a soft X-ray Fourier-transform spectrometer[J]. Nucl. Instrum. Methods Phys. Res.,1994,A347:182-191.
[24] MOLER EJ,DUARTE R M,HOWELLS M R,et al.. First measurements using the ALS soft X-ray Fourier transformspectrometer[J]. SPIE,1997,3154:117-122.
[25] AGÅKER M,ANDERSSON J,ENGLUND C J,et al.. Novel instruments for ultra-soft X-ray emission spectroscopy[J]. Nucl. Inst. Meth Phys. Res. A,2009,601:213-219.
[26] AGÅKER M,ANDERSSON J,ENGLUND J C,et al.. Spectroscopy in the vacuum-ultraviolet[J]. Nature Photon.,2011,5:248.