IRIS publication 67924362
Incoherent broad-band cavity-enhanced absorption spectroscopy of azulene in a supersonic jet
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TY - JOUR - Fiedler, S. E.,Hoheisel, G.,Ruth*, A. A.,Hese, A. - 2003 - December - Chemical Physics Letters - Incoherent broad-band cavity-enhanced absorption spectroscopy of azulene in a supersonic jet - Validated - () - 382 - 3-43-4 - 447 - 453447 - The application of incoherent broad-band cavity-enhanced absorption spectroscopy (IBBCEAS) to isolated jet-cooled gas-phase species is demonstrated on basis of the S-1 <-- S-0 transition of azulene in a continuous supersonic expansion. By focusing white light from a high power Xe-lamp into an optically stable resonator, which is intercepted by the supersonic seeded jet, the absorption is measured over a broad spectral range between 17 300 and 20 255 cm(-1) with a resolution of approximate to4 cm(-1). The resolution, which is due to the dispersion of transmitted light by a grating monochromator, is sufficient to monitor the highly congested vibronic structure >3000 cm(-1) above the S-1,S-0 origin of azulene. The sensitivity required for this absorption experiment compares well to that of conventional pulsed cavity ring-down measurements. (C) 2003 Published by Elsevier B.V.The application of incoherent broad-band cavity-enhanced absorption spectroscopy (IBBCEAS) to isolated jet-cooled gas-phase species is demonstrated on basis of the S-1 <-- S-0 transition of azulene in a continuous supersonic expansion. By focusing white light from a high power Xe-lamp into an optically stable resonator, which is intercepted by the supersonic seeded jet, the absorption is measured over a broad spectral range between 17 300 and 20 255 cm(-1) with a resolution of approximate to4 cm(-1). The resolution, which is due to the dispersion of transmitted light by a grating monochromator, is sufficient to monitor the highly congested vibronic structure >3000 cm(-1) above the S-1,S-0 origin of azulene. The sensitivity required for this absorption experiment compares well to that of conventional pulsed cavity ring-down measurements. (C) 2003 Published by Elsevier B.V. - 0009-26140009-2614 - ://000186927700035 ://000186927700035 DA - 2003/12 ER -
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@article{V67924362, = {Fiedler, S. E. and Hoheisel, G. and Ruth*, A. A. and Hese, A. }, = {2003}, = {December}, = {Chemical Physics Letters}, = {Incoherent broad-band cavity-enhanced absorption spectroscopy of azulene in a supersonic jet}, = {Validated}, = {()}, = {382}, = {3-43-4}, pages = {447--453447}, = {{The application of incoherent broad-band cavity-enhanced absorption spectroscopy (IBBCEAS) to isolated jet-cooled gas-phase species is demonstrated on basis of the S-1 <-- S-0 transition of azulene in a continuous supersonic expansion. By focusing white light from a high power Xe-lamp into an optically stable resonator, which is intercepted by the supersonic seeded jet, the absorption is measured over a broad spectral range between 17 300 and 20 255 cm(-1) with a resolution of approximate to4 cm(-1). The resolution, which is due to the dispersion of transmitted light by a grating monochromator, is sufficient to monitor the highly congested vibronic structure >3000 cm(-1) above the S-1,S-0 origin of azulene. The sensitivity required for this absorption experiment compares well to that of conventional pulsed cavity ring-down measurements. (C) 2003 Published by Elsevier B.V.The application of incoherent broad-band cavity-enhanced absorption spectroscopy (IBBCEAS) to isolated jet-cooled gas-phase species is demonstrated on basis of the S-1 <-- S-0 transition of azulene in a continuous supersonic expansion. By focusing white light from a high power Xe-lamp into an optically stable resonator, which is intercepted by the supersonic seeded jet, the absorption is measured over a broad spectral range between 17 300 and 20 255 cm(-1) with a resolution of approximate to4 cm(-1). The resolution, which is due to the dispersion of transmitted light by a grating monochromator, is sufficient to monitor the highly congested vibronic structure >3000 cm(-1) above the S-1,S-0 origin of azulene. The sensitivity required for this absorption experiment compares well to that of conventional pulsed cavity ring-down measurements. (C) 2003 Published by Elsevier B.V.}}, issn = {0009-26140009-2614}, = {://000186927700035 ://000186927700035}, source = {IRIS} }
Data as stored in IRIS
AUTHORS | Fiedler, S. E.,Hoheisel, G.,Ruth*, A. A.,Hese, A. | ||
YEAR | 2003 | ||
MONTH | December | ||
JOURNAL_CODE | Chemical Physics Letters | ||
TITLE | Incoherent broad-band cavity-enhanced absorption spectroscopy of azulene in a supersonic jet | ||
STATUS | Validated | ||
TIMES_CITED | () | ||
SEARCH_KEYWORD | |||
VOLUME | 382 | ||
ISSUE | 3-43-4 | ||
START_PAGE | 447 | ||
END_PAGE | 453447 | ||
ABSTRACT | The application of incoherent broad-band cavity-enhanced absorption spectroscopy (IBBCEAS) to isolated jet-cooled gas-phase species is demonstrated on basis of the S-1 <-- S-0 transition of azulene in a continuous supersonic expansion. By focusing white light from a high power Xe-lamp into an optically stable resonator, which is intercepted by the supersonic seeded jet, the absorption is measured over a broad spectral range between 17 300 and 20 255 cm(-1) with a resolution of approximate to4 cm(-1). The resolution, which is due to the dispersion of transmitted light by a grating monochromator, is sufficient to monitor the highly congested vibronic structure >3000 cm(-1) above the S-1,S-0 origin of azulene. The sensitivity required for this absorption experiment compares well to that of conventional pulsed cavity ring-down measurements. (C) 2003 Published by Elsevier B.V.The application of incoherent broad-band cavity-enhanced absorption spectroscopy (IBBCEAS) to isolated jet-cooled gas-phase species is demonstrated on basis of the S-1 <-- S-0 transition of azulene in a continuous supersonic expansion. By focusing white light from a high power Xe-lamp into an optically stable resonator, which is intercepted by the supersonic seeded jet, the absorption is measured over a broad spectral range between 17 300 and 20 255 cm(-1) with a resolution of approximate to4 cm(-1). The resolution, which is due to the dispersion of transmitted light by a grating monochromator, is sufficient to monitor the highly congested vibronic structure >3000 cm(-1) above the S-1,S-0 origin of azulene. The sensitivity required for this absorption experiment compares well to that of conventional pulsed cavity ring-down measurements. (C) 2003 Published by Elsevier B.V. | ||
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ISBN_ISSN | 0009-26140009-2614 | ||
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URL | ://000186927700035 ://000186927700035 | ||
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