Enrico Conti's Liquid Xenon Page

Last update: 18 Jan 2019

Liquid Xenon General Properties

Xenon on Wikipedia
Trivial Other general informations
General properties
Liquid Density vs. Temperature
Density vs. Temperature in gas phase and in liquid phase
Xe physical properties (from Encyclopedie des Gaz, Elsevier/L'Air Liquide) - Vapor Pressure vs. Temperature
Electron mean energy in LXe and LAr as a function of the electric field (from U.Sowada et al., Chem. Phys. Lett. 34 (1975), 466)
Energy level and band structure in gas and liquid (adapted from W.F.Schmidt, "Electronic energy levels in nonpolar dielectric liquids", in "Excess Electrons in Dielectric Media", C.Ferradini and J.Jay-Gerin eds., CRC Press (1991))
X-ray and Gamma-ray Interaction Length
Electron Range (from NIST DataBase)
- Graph
- Table (text file)

Liquid Xenon Properties Related to Particle Detection

General
Electron drift velocity, mobility and diffusion coefficient
- Drift velocity vs. Electric field (from L.S.Miller, S.Howe, W.E.Spear, Phys. Rev. 166 (1968), 871)
- Zero field electron mobility vs. Temperature (from E.M.Gushchin, A.A.Krulov, I.M.Obodovskii, Sov.Phys.JETP 55 (1982), 650)
- Electron drift velocity at saturation vs. Temperature (from E.M.Gushchin, A.A.Krulov, I.M.Obodovskii, Sov.Phys.JETP 55 (1982), 650)
- Electron diffusion coefficient in LXe and LAr (from T.Doke, NIM 196 (1982), 87)
Ion drift velocity
- Mobility of the positive hole as a funtion of T (from Hilt et al., J. Phys. Condens. Matter 6 (1994), 735)
- Ion mobility of defined ions as a function of T (from Hilt et al., IEEE Trans.Dielectric and Electr.Insul. 1 (1994), 648)
Free-ion yield (Gfi = number of free electrons per 100 eV deposited energy)
- Free-ion yield and light yield vs. Electric field (from S.Kubota, M.Hishida, M.Suzuki, J.Ruan(Gen), Phys. Rev. B20 (1979), 3486)
- Free-ion yield vs. Electric field (from T.Doke, Portgal. Phys. 12 (1981), 9)
- Free-ion yield vs. Electric field at low field (from A.S.Barabash et al., NIM A236 (1985), 69)
- Free-ion yield vs. Electric field for 5.4 MeV alpha-particles. The free-ion yield Gfi for those alphas follows the formula Gfi(E)=Gfi(0)*(1+d*E) with d=0.785E-4 cm/V and Gfi(0)=0.156 (from T.Lindblad et al., NIM 215 (1983), 183).
Energy resolution with ionization charge
- Resolution vs. Electric field for electrons (from NIM A 302 (1991), 177)
- Resolutions Vs. Electric field for alphas (from NIM A 307 (1991), 119)
- Resolution vs. Temperature (and density) (from I.M.Obodovski, NIM A327 (1993), 119)
- Resolution vs. Density in High Pressure Xe gas (from C.Levin, J.Germani, J.Markey, NIM A332 (1993), 206)
Scintillation light
- Refractive index vs. wavelength (from L.M.Barkov et al., NIM A379 (1996), 482)
- UV light
  - Refractive index:
    1.69 +- 0.02 (@170K, 178nm) (V.N.Solotov et al., NIM A516 (2004), 462)
    1.5655 +- 0.0024 +- 0.0078 (@161K, 180nm) (NIM A379 (1996), 482)
  - Light attenuation length (Rayleigh scattering + absorption by impurities) @175nm:
    > 100 cm (A.Baldini at al., NIM A 545 (2005), 753-764)
    54(+14 -9) cm (A.Baldini et al., arXiv:physics/0407033 (2004))
    36.4 +- 1.8 cm (NIM A516 (2004), 462)
    29 +- 2 cm (NIM A384 (1997), 380)
    ~ 40 cm (NIM A320 (1992), 228)
  - Average energy needed to produce a scintillation photon (from T.Doke et al., NIM A 420 (1999), 62)
  - Scintillation decay time (same as above)
  - LET dependence of UV light yield (from M.Tanaka et al., NIM A457 (2001), 454)
  - Dependence of UV light yield on gamma-ray energy and models (from M.Szydagis et al., "NEST: a comprehensive model for scintillation yield in liquid xenon", JINST 6 P10002 (2011) ) (arXiv: 1106.1613)
  - Quenching factor for nuclear recoil (from E.Aprile et al., Phys.Rev. D72, 072006 (2005))
    q = (amount of light produced by a recoil nucleus)/(amount of light produced by an electron or gamma-ray) at zero electric field
    Older measurements:
    q = 0.22 +- 0.01 (recoil energy = 40-70 keV) (D.Akimov et al., Phys. Lett. B 524 (2002), 245-251)
    q = 0.2 (recoil energy = 50-100 keV) (F.Arneodo et al., NIM A 449 (2000),147-157)
    q = 0.55 +- 0.11 (recoil energy=10-100 keV) (R.Bernabei et al., Phys.Lett.B 436 (1998), 379-388)
- IR light
  Xenon (and Argon as well) scintillates in the Infrared at wavelength < 1 micron. Spectrum and scintillation mechanism is studied and understood in gas phase, less in liquid phase. Poor data about the light yield. See:
  - "Infrared fluorescence of Xe2 molecules in electron/proton beam excited pure Xe gas and in Ar/Xe gas mixture", A.F.Borghesani et al., J. Chem. Phys. 115 (2001), 6042
  - "Infrared scintillation: a comparison between gaseous and liquid xenon", G.Bressi et al., Nucl. Instrum. and Meth. A 461 (2001), 378-380
  - "Measurement of the light yield of infrared scintillation in xenon gas", Nucl. Instrum. and Meth. A 452 (2000), 167-169
Purity
- Rate constant for Electron Attachment to O2, N2O and SF6 in LXe at 165K (from G.Bakale, U.Sowada, W.F.Schmidt, J.Phys.Chem. 80 (1976), 2556)
- "Measurements of the lifetime of conduction electrons in liquid xenon", E. Aprile, R. Mukherjee, M. Suzuki, Nucl. Instrum. and Meth. A 300 (1991), 343-350
- "Measurement of attenuation length of drifting electrons in liquid xenon", M.Ichige et al., Nucl. Instrum. and Meth. A 333 (1993), 355-363
- "Electron lifetime measurement in a liquid xenon ionization chamber with the signal shape analysis method" , G.Carugno et al., Nucl. Instrum. and Meth. A 335 (1993), 338-340
- "Purification of liquid xenon and impurity monitoring for a PET detector", V.Y.Chepel et al., Nucl. Instrum. and Meth. A 349 (1994), 500-505
- "A large liquid xenon time projection chamber for the study of the radiative pion decay", G.Carugno et al., Nucl. Instrum. and Meth.A 376 (1996), 149-154
Other essential bibiography (incomplete):
- "Average energy expended per ion pair in liquid xenon", T.Takahashi et al., Phys. Rev. A 12 (1975), 1771
- "Detection gamma dans le xenon liquide et mesure de l'energie moyenne d'ionisation", M.C.Gadenne et al., Nucl. Instrum. and Meth. 124 (1975), 521-526
- "Fundamental properties of liquid argon, krypton and xenon as radiation media", T.Doke, Portugal Phys. 12 (1981), 9
- "Statistics of charge collection in liquid argon and liquid xenon", J.Thomas et al., Phys. Rev. A38(1988), 5793
- "Fano factor in xenon", N.Ishida et al.,Phys. Rev.A 46(1992), 1676-1679
- "Liquid xenon scintillation: photon yield and Fano factor measurements", J.Seguinot et al., Nucl. Instrum. and Meth. A 354 (1995), 280-287
- "Positive hole mobility in liquid xenon", O.Hilt and W.F. Schmidt, Chem. Phys. 183 (1994), 147-153
- "Test of the recombination model for the energy resolution in an ionization chamber filled with liquid argon or xenon", E.Shibamura et al., Jpn. J. Appl. Phys. vol.34 (1995), pp.1897-1900
- "Correlated fluctuations between luminescence and ionization in liquid xenon", E.Conti et al., Phys.Rev.B 68, 054201 (2003)
- "Liquid Xe scintillation calorimetry and Xe optical properties", A.Baldini et al. (2004), arXiv:physics/0401072
- "Mobility of thorium ions in liquid xenon", K.Wamba et al. NIM A 555 (2005) 205-210, arXiv:cond-mat/0503560
- "Liquid xenon as a dark matter detector. Prospect for nuclear recoil discrimination by photon timing", G.J.Davies et al., Phys.Lett. B 320 (1994), 395-399
- "Dynamical behavior of free electrons in the recombination process in liquid argon, krypton and xenon", S.Kubota et al., Phys. Rev. B 20 (1979), 3486
- "Specific-ionization-density effect on the time dependence of luminescence in liquid xenon", S.Kubota et al., Phys.Rev. B 21 (1980), 2632
- "LET dependence of scintillation yields in liquid xenon", M.Tanaka et al.,Nucl. Instrum. and Meth. A 457 (2001), 454-463
- "Absolute scintillation yields in liquid argon and xenon for various particles", T.Doke et al., Jpn. J. Appl. Phys. vol.41(2002), pp.1538-1545
- "Rayleigh scattering in rare-gas liquids", G.M.Seidel et al., Nucl.Instrum. and Meth. A 489 (2002), 189-194, also arXiv:hep-ex/0111054
- "Liquid filled proportional counter", R.A.Muller et al., Phys.Rev.Lett. 27 (1971), 532
- "Electron avalanche in liquid xenon", S.E.Derenzo et al., Phys. Rev. A 9 (1974), 2582-2591
- "A liquid xenon proportional scintillation counter", K.Masuda et al., Nucl.Instrum.Meth.160 (1979), 247-253
- "Ionization of liquid xenon by Am-241 and Po-210 alpha particles", E.Aprile et al., Nucl. Instrum. Meth. A307 (1991), 119-125
- "Detection of energy deposition down to the keV region using liquid xenon scintillation", P.Benetti et al., NIM A327 (1993), 203-206
- "Scintillating LXe/LKr electromagnetic calorimeter", D.Yu.Akimov et al., IEEE Trans. Nucl. Sc. 42 (1995), 2244
- "Performance of a liquid xenon time projection chamber for low-energy gamma rays detection", E.Conti et al., Nucl. Instrum. Meth. A 356 (1995), 286
- "Present status of liquid rare gas scintillation detectors and their new application to gamma-ray calorimeters", T.Doke et al., Nucl. Instrum. and Meth. A420 (1999), 62-80
- "Development of a liquid Xe photon detector for mu --> e gamma decay search experiment at PSI", S.Mihara et al., IEEE Trans. Nucl. Sci. 49 (2002), 588-591
- "Fast timing measurements of gamma-ray events in liquid xenon", K.Giboni et al., IEEE Trans. Nucl. Sc. vol.52, no.5, (2005), 1800-1804
- "Scintillation response of liquid Xe surrounded by PTFE reflectors for gamma rays", M.Yamashita et al., NIM A 535 (2004), 692-698
- "Performance of a large area avalanche photodiode in a liquid xenon ionization and scintillation chamber", K.Ni et al., NIM A 551 (2005), 356-363
- "Simultaneous measurement of ionization and scintillation from nuclear recoils in liquid xenon for a dark matter experiment", E.Aprile et al., Phys. Rev. Lett. 97, 081302 (2006)
- T.Doke et al., "Time-of-flight positron emission tomography using liquid xenon scintillation", Nucl. Instrum. and Meth. A 569 (2006), 863-871
- R.Sawada, "Liquid xenon gamma-ray detector for MEG", NIM A 581 (2007), 522-525
- J.Angle et al. (XENON collab.), "First result from the Xenon10 dark Matter experiment at the Gran Sasso National Laboratory", Phys. Rev. Lett. 100, 021303 (2008), also arXiv:0706.0039v1 [astro-ph] (2007)
- F.LePort et al., "A liquid xenon ionization chamber in an all-fluoropolymer vessel", NIM A 578 (2007), 409-420
- A.Pullia et al., "A cold low noise preamplifier for use in liquid xenon", IEEE NSS07 Nuclear Science Symposium Conference Record, 2007, vol.1, pp.424-428.
- A.I.Bolozdynya et al., "Using a wavelenght shifter to enhance the sensitivity of liquid Xenon dark matter detectors", IEEE Trans. Nucl. Sci. 55 (2008), 1453
- U.Ueshima et al. (XMASS collab.), "Scintillation yield of liquid xenon at room temperature", Nucl. Instrum. and. Meth. A 594 (2008), 148-154 , also ArXiv:0803.2888v01
- P.Sorensen et al., "The scintillation and ionization yield of liquid xenon for nuclear recoils", Nucl. Instrum. and Meth. A 601 (2009) 339-346
- "New measurement of the relative scintillation efficiency of xenon nuclear recoils below 10 keV", E.Aprile et al., Phys. Rev. C 79, 045807 (2009)
- "Design and performance of the XENON10 dark matter experiment", XENON Collaboration, E.Aprile et al., Astrop. Phys. 34 (2011) 679 (arXiv:1001.2834)
- "Liquid noble gas detectors for low energy particle physics", V.Chepel, H.Araujo, JINST 8 R04001 (2013) (arXiv:1207.2292)
- "Response of liquid xenon to Compton electrons down to 1.5 keV", L.Baudis et al., Phys. Rev. D 87, 115015 (2013)
Excellent reviews:
- E.Aprile, A.E.Bolotnikov, A.I.Bolozdynya, T.Doke, "Noble Gas Detectors", 2006, Wiley-VCH Ed.
- E.Aprile, T.Doke, "Liquid Xenon Detectors for Particle Physics and Astrophysics", Rev. Mod. Phys. 82 (2010), 2053 (arXiv:0910.4956v1 )
Other maybe usefull references:
- D. Nygren, "Optimal detectors for WIMP and 0-nu betabeta searches: Identical high-pressure xenon gas TPCs?", NIM A 581 (2007), 632-642
- Xe+ ion drift velocity in GAS Xe (from Neves et al., NIM A 580 (2007), 66-69)
Basic properties of LXe as related to its application in radiation detectors Transparencies of W.F.Schmidt talk at Xenon01 Workshop
Other readings:
The Internationl Workshop on Technique and Application of Xenon Detectors, World Scientific Publ., 2002

Statistics (from 5/03/2004)

For comments etc.

Last update: 18 JAN 2019