Advances in laser-based isotope ratio measurements: selected applications
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[1] Markus W. Sigrist,et al. Mid-infrared laser spectroscopic determination of isotope ratios of N2O at trace levels using wavelength modulation and balanced path length detection , 2007 .
[2] S. Johnsen,et al. Measuring stable isotopes of hydrogen and oxygen in ice by means of laser spectrometry: the Bølling transition in the Dye-3 (south Greenland) ice core , 2002, Annals of Glaciology.
[3] H. Meijer,et al. Determination of the H-2/H-1, O-17/O-16, and O-18/O-16 isotope ratios in water by means of tunable diode laser spectroscopy at 1.39 mu m , 2002 .
[4] Daniel Halmer,et al. Time resolved simultaneous detection of 14NO and 15NO via mid-infrared cavity leak-out spectroscopy , 2005, Isotopes in environmental and health studies.
[5] D. W. Allan,et al. Statistics of atomic frequency standards , 1966 .
[6] D. Groot,et al. Handbook of Stable Isotope Analytical Techniques , 2004 .
[7] Pradeep K. Aggarwal,et al. Isotopes in the Water Cycle: Past, present and future of a developing science , 2005 .
[8] A. Heymsfield,et al. Water Isotope Ratios D/H, 18O/16O, 17O/16O in and out of Clouds Map Dehydration Pathways , 2003, Science.
[9] P. Werle,et al. The limits of signal averaging in atmospheric trace-gas monitoring by tunable diode-laser absorption spectroscopy (TDLAS) , 1993 .
[10] Ove Axner,et al. A general non-complex analytical expression for the nth Fourier component of a wavelength-modulated Lorentzian lineshape function , 2001 .
[11] Charles E Kolb,et al. Infrared laser spectrometer with balanced absorption for measurement of isotopic ratios of carbon gases. , 2002, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy.
[12] P. Forster,et al. Assessing the climate impact of trends in stratospheric water vapor , 2002 .
[13] E. Kerstel,et al. High-precision determination of the 13CO2/12CO2 isotope ratio using a portable 2.008-μm diode-laser spectrometer , 2003 .
[14] Elisabeth J. Moyer,et al. Observations of deep convective influence on stratospheric water vapor and its isotopic composition , 2007 .
[15] S. Trumbore. Carbon respired by terrestrial ecosystems – recent progress and challenges , 2006 .
[16] Grant A. D. Ritchie,et al. 4 Cavity ring-down and cavity enhanced spectroscopy using diode lasers , 2005 .
[17] David W. Keith,et al. The effect of climate change on ozone depletion through changes in stratospheric water vapour , 1999, Nature.
[18] Gavin A. Schmidt,et al. Modeling atmospheric stable water isotopes and the potential for constraining cloud processes and stratosphere‐troposphere water exchange , 2005 .
[19] Dan Yakir,et al. Using stable isotopes of water in evapotranspiration studies , 2000 .
[20] W Seelert,et al. Power scaling of semiconductor laser pumped Praseodymium-lasers. , 2007, Optics express.
[21] L. Wassenaar,et al. High-precision laser spectroscopy D/H and 18O/16O measurements of microliter natural water samples. , 2008, Analytical chemistry.
[22] P. Rairoux,et al. Mode-by-mode optical feedback: cavity ringdown spectroscopy , 2007 .
[23] G. Visser,et al. Assessment of the amount of body water in the Red Knot ( Calidris canutus ): an evaluation of the principle of isotope dilution with 2H, 17O, and 18O as measured with laser spectrometry and isotope ratio mass spectrometry , 2006, Isotopes in environmental and health studies.
[24] R. Alley,et al. Validity of the temperature reconstruction from water isotopes , 1997 .
[25] Livio Gianfrani,et al. Diode laser absorption spectrometry for 13CO2/12CO2 isotope ratio analysis: Investigation on precision and accuracy levels , 2005 .
[26] Gang Li,et al. The HITRAN 2008 molecular spectroscopic database , 2005 .
[27] G W Harris,et al. High-precision direct measurements of (13)CH(4)/(12)CH(4) and (12)CH(3)D/(12)CH(4) ratios in atmospheric methane sources by means of a long-path tunable diode laser absorption spectrometer. , 1994, Applied optics.
[28] Livio Gianfrani,et al. Oxygen isotope ratio measurements in CO(2) by means of a continuous-wave quantum cascade laser at 4.3 mum. , 2007, Optics letters.
[29] V. Savarino,et al. The 13C urea breath test in the diagnosis ofHelicobacter pylori infection , 1999, Gut.
[30] Livio Gianfrani,et al. Trace-gas analysis using diode lasers in the near-IR and long-path techniques , 2002 .
[31] D. Tedesco,et al. First field determination of the 13C/12C isotope ratio in volcanic CO2 by diode-laser. , 2004, Optics express.
[32] D. Schrag,et al. On the feedback of stratospheric clouds on polar climate , 2002 .
[33] Daniele Romanini,et al. Two schemes for trace detection using cavity ringdown spectroscopy , 2004 .
[34] W. Brand,et al. New methods for fully automated isotope ratio determination from hydrogen at the natural abundance level. , 1996, Isotopes in environmental and health studies.
[35] R. Gonfiantini. Stable Isotope Reference Samples for Geochemical and Hydrological Investigations , 1984 .
[36] R. Shaheen,et al. Investigations of the photochemical isotope equilibrium between O 2 , 2006 .
[37] X. Lee,et al. In Situ Measurement of the Water Vapor 18O/16O Isotope Ratio for Atmospheric and Ecological Applications , 2005 .
[38] G. H. Visser,et al. Stable isotope ratio measurements on highly enriched water samples by means of laser spectrometry. , 2001, Analytical chemistry.
[39] Bertrand Parvitte,et al. Laser diode spectroscopy of the H2O isotopologues in the 2.64 μm region for the in situ monitoring of the Martian atmosphere , 2008 .
[40] Masaki Asobe,et al. High-power, tunable difference frequency generation source for absorption spectroscopy based on a ridge waveguide periodically poled lithium niobate crystal. , 2007, Optics express.
[41] J. Speakman. The role of technology in the past and future development of the doubly labelled water method , 2005, Isotopes in environmental and health studies.
[42] G. Visser,et al. Validation of the DLW method in Japanese quail at different water fluxes using laser and IRMS. , 2002, Journal of applied physiology.
[43] D. Murnick,et al. Laser based 14C counting, an alternative to AMS in biological studies , 2007 .
[44] H. Meijer,et al. First real-time measurement of the evolving 2H/1H ratio during water evaporation from plant leaves , 2005, Isotopes in environmental and health studies.
[45] Jörgen Gustafsson,et al. Wavelength modulation absorption spectrometry — an extensive scrutiny of the generation of signals , 2001 .
[46] Steven D. Sargent,et al. Tunable diode laser absorption spectroscopy for stable isotope studies of ecosystem–atmosphere CO2 exchange , 2003 .
[47] E. Kerstel,et al. Isotope analysis of water by means of near infrared dual-wavelength diode laser spectroscopy. , 2003, Optics express.
[48] Daniele Romanini,et al. A water isotope (2H, 17O, and 18O) spectrometer based on optical feedback cavity-enhanced absorption for in situ airborne applications , 2006 .
[49] David William Keith. Stratosphere‐troposphere exchange: Inferences from the isotopic composition of water vapor , 2000 .
[50] C. Federico,et al. Geochemical monitoring of the 2002–2003 eruption at Stromboli volcano (Italy): precursory changes in the carbon and helium isotopic composition of fumarole gases and thermal waters , 2005 .
[51] John E. Harries,et al. Atmospheric radiation and atmospheric humidity , 1997 .
[52] C. Oppenheimer,et al. Carbon isotopomers measurement using mid-IR tunable laser sources , 2005, Isotopes in environmental and health studies.
[53] Livio Gianfrani,et al. Measuring the 13C/12C isotope ratio in atmospheric CO2 by means of laser absorption spectrometry: a new perspective based on a 2.05-μm diode laser , 2006, Isotopes in environmental and health studies.
[54] L. Hollberg,et al. Cavity-enhanced absorption spectroscopy of molecular oxygen , 1999 .
[55] Naohiro Yoshida,et al. Isotope analysis of environmental substances by a new laser-spectroscopic method utilizing different pathlengths , 2001 .
[56] W. Dansgaard. Stable isotopes in precipitation , 1964 .
[57] Frank K. Tittel,et al. Mid-infrared trace-gas sensing with a quasi- continuous-wave Peltier-cooled distributed feedback quantum cascade laser , 2004 .
[58] R. Rosso,et al. Wind control of storm‐triggered shallow landslides , 2007 .
[59] David D. Nelson,et al. A high precision pulsed quantum cascade laser spectrometer for measurements of stable isotopes of carbon dioxide , 2005 .
[60] T. Röckmann,et al. A general algorithm for the 17O abundance correction to 13C/12C determinations from CO2 isotopologue measurements, including CO2 characterised by ‘mass-independent’ oxygen isotope distributions , 2007 .
[61] G. Blake,et al. Oxygen isotopic composition of carbon dioxide in the middle atmosphere , 2007, Proceedings of the National Academy of Sciences.
[62] H. Meijer,et al. Simultaneous determination of the (2)h/(1)h, (17)o/(16)o, and (18)o/(16)o isotope abundance ratios in water by means of laser spectrometry. , 1999, Analytical chemistry.
[63] P. Aggarwal,et al. Laser spectroscopic analysis of stable isotopes in natural waters: a low-cost, robust technique for the use of environmental isotopes in hydrological and climate studies , 2006 .
[64] G. Hut. Consultants' group meeting on stable isotope reference samples for geochemical and hydrological investigations , 1987 .
[65] J. Grooß,et al. Modelling the budget of middle atmospheric water vapour isotopes , 2006 .
[66] David D. Nelson,et al. New method for isotopic ratio measurements of atmospheric carbon dioxide using a 4.3 μm pulsed quantum cascade laser , 2008 .
[67] R. Restieri,et al. Chemical and isotopic analysis using diode laser spectroscopy: applications to volcanic gas monitoring , 2002 .
[68] J. Speakman,et al. Doubly Labelled Water: Theory and Practice , 1997 .
[69] L. Sternberg,et al. The use of stable isotopes to study ecosystem gas exchange , 2000, Oecologia.
[70] G. Berden,et al. Cavity ring-down spectroscopy: Experimental schemes and applications , 2000 .
[71] Frank K. Tittel,et al. Development of a compact quantum cascade laser spectrometer for field measurements of CO2 isotopes , 2005 .
[72] F. Irion,et al. ATMOS stratospheric deuterated water and implications for troposphere‐stratosphere transport , 1996 .