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Molecular gas analysis by Raman scattering in intracavity laser configuration 원문보기

IPC분류정보
국가/구분 United States(US) Patent 등록
국제특허분류(IPC7판)
  • G01J-003/44
출원번호 US-0774643 (1985-09-11)
발명자 / 주소
  • Benner Robert E. (Salt Lake City UT) Andrade Joseph D. (Salt Lake City UT) Van Wagenen Richard A. (Salt Lake City UT) Westenskow Dwayne R. (Salt Lake City UT)
출원인 / 주소
  • University of Utah (Salt Lake City UT 02)
인용정보 피인용 횟수 : 130  인용 특허 : 2

초록

The concentration of multiple polyatomic gases are determined almost simultaneously by Raman scattering. The gas sample is placed in a sampling cell located in the resonance cavity of a laser and a polarized laser beam having sufficient intensity to produce detectable signals of Raman scattered ligh

대표청구항

A system for the near simultaneous analysis and quantitation of selected multiple polyatomic gases in a gas sample by Raman light scattering comprising in combination; (a) laser means capable of producing a polarized laser beam of a selected wavelength containing a laser cavity said laser cavity con

이 특허에 인용된 특허 (2)

  1. Carpenter Frank M. (Rockford IL), Cam filter wheel.
  2. Matthews Thomas G. (Oak Ridge TN granted to U.S. Department of Energy under the provisions of 42 U.S.C. 2182), Multiple-reflection optical gas cell.

이 특허를 인용한 특허 (130)

  1. Gull Kathleen Bergeron ; Hunt William C., Active temperature and humidity compensator for anesthesia monitoring systems.
  2. Alden, Don, Analyte measurement device with a single shot actuator.
  3. Alden, Don, Analyte measurement device with a single shot actuator.
  4. Freeman, Dominique; Schulte, Thomas, Apparatus and method for penetration with shaft having a sensor for sensing penetration depth.
  5. Berger Andrew J. (Cambridge MA) Brennan ; III James F. (Cambridge MA) Dasari Ramanchandra R. (Lexington MA) Feld Michael S. (Newton MA) Itzkan Irving (Boston MA) Tanaka Kaz (Somerville MA) Wang Yang , Apparatus and methods of raman spectroscopy for analysis of blood gases and analytes.
  6. Yang Keun Y. (Seoul KRX), Apparatus for determining concentrations of mineral elements.
  7. Freeman, Dominique M., Blood testing apparatus having a rotatable cartridge with multiple lancing elements and testing means.
  8. Freeman, Dominique; Wurster, Thomas; Malowaniec, Krzysztof D.; Diekmann, Christoph, Blood testing apparatus having a rotatable cartridge with multiple lancing elements and testing means.
  9. Freeman, Dominique; Alden, Don; Briggs, Barry Dean, Body fluid sampling device with a capacitive sensor.
  10. Freeman, Dominique M.; Alden, Don; Briggs, Barry Dean, Body fluid sampling device with capacitive sensor.
  11. Freeman, Dominique; Deshmukh, Ajay; Hegener, Jason; Shoup, Thomas; Eaton, Brent; Molho, Joshua; Wang, Amy; Perry, Jeffrey, Body fluid sampling module with a continuous compression tissue interface surface.
  12. Choi, In Sang; Castle, Mark; Jang, Hyunsuk, Cam drive for managing disposable penetrating member actions with a single motor and motor and control system.
  13. Brown, Gordon C.; Burka, Michael; Cranton, Brian; Erickson, David; Grassi, James; Hammond, Matthew Patrick; Shaffer, Maximillan Ben; Villeneuve, Pierre, Chemical analyzer for industrial process control.
  14. O'Connor Eamon,IEX ; Jarvis John M. ; O'Donnell John J.,IEX, Chemical analyzer optical probe and method of manufacturing same.
  15. Ozdemir Phillip (Plainfield NJ), Circulating raman-media laser radar method and apparatus for remote measurement of gases in the atmosphere.
  16. Hayes ; Jr. Douglass R. ; Goodrich Vernon R. ; Brinley ; Jr. William R. ; Neale Patrick J., Cosine corrected optical pathway of a spectral radiometer.
  17. Freeman, Dom; Boecker, Dirk, Device and method for variable speed lancet.
  18. Leroux Thierry (Oustreham FRX), Device for colorimetric measurement of a display screen.
  19. Atkinson George H. ; Mehdizadeh Esmail ; Pilgrim Jeffrey S., Diode laser-pumped laser system for intracavity laser spectroscopy (ILS).
  20. Atkinson George H. ; Mehdizadeh Esmail, Diode laser-pumped laser system for ultra-sensitive gas detection via intracavity laser spectroscopy (ILS).
  21. Djeu, Nicholas; Muller, Andreas, Dual-gas microcavity Raman sensor and method of use.
  22. Alden, Don; Freeman, Dominique M., Electric lancet actuator.
  23. Cox, David; Haberstroh, Marc; Kinney, Patrick; Carrillo, Albert; Hoshizaki, Jon; Shariati, Maryam; King, Howard; Lee, Joe; Chan, Matthew, Fast-indexing filter wheel and method of use.
  24. Falk, Joel; Chen, Peng Kevin; Buric, Michael Paul; Woodruff, Steven D., Gas sensing system employing raman scattering.
  25. Adler-Golden Steven (Newtonville MA) Goldstein Neil (Medford MA) Bien Fritz (Concord MA), Gas species monitor system.
  26. Atkinson George H. ; Mehdizadeh Esmail ; Pilgrim Jeffrey S., Linear cavity laser system for intracavity laser spectroscopy.
  27. Jarvis John M. ; O'Connor Eamon,IEX ; O'Donnell John J.,IEX, Low noise Raman analyzer system.
  28. Freeman, Dominique M.; Alden, Don, Low pain penetrating member.
  29. Freeman, Dominique M.; Alden, Don; Wittig, Michael; Boecker, Dirk, Low pain penetrating member.
  30. Freeman, Dominique; Schulte, Thomas; Cane, Michael; Alden, Don; Schumann, Matt, Method and apparatus for a fluid sampling device.
  31. Freeman, Dominique; Schulte, Tom; Caine, Michael Roger; Alden, Don; Schumann, Matt, Method and apparatus for a fluid sampling device.
  32. Wang,Xinghua; Voigt,Thomas C.; Tuschel,David; Wang,Chenhui; Treado,Patrick J., Method and apparatus for a microscope image selector.
  33. Wang,Xinghua; Voigt,Thomas; Tuschel,David; Wang,Chenhui; Treado,Patrick, Method and apparatus for a microscope image selector.
  34. Freeman, Dominique; Boecker, Dirk, Method and apparatus for a multi-use body fluid sampling device with analyte sensing.
  35. Freeman, Dominique; Alden, Don; Boecker, Dirk; Cane, Michael; Schumann, Matt; Beadman, Michael, Method and apparatus for a multi-use body fluid sampling device with sterility barrier release.
  36. Freeman, Dominique; Alden, Don; Boecker, Dirk; Cane, Mike; Schumann, Matt; Beadman, Mike, Method and apparatus for a multi-use body fluid sampling device with sterility barrier release.
  37. Freeman, Dominique; Alden, Don; Boecker, Dirk; Cane, Mike; Schumann, Matt; Beadmann, Mike, Method and apparatus for a multi-use body fluid sampling device with sterility barrier release.
  38. Boecker, Dirk, Method and apparatus for a variable user interface.
  39. Marsot, Travis; Lum, Paul; Alden, Don; Ross, James; Bardell, Ron L.; Weigl, Bernhard, Method and apparatus for an improved sample capture device.
  40. Marsot, Travis; Lum, Paul; Alden, Don; Ross, James; Bardell, Ron L.; Weigl, Bernhard Hans, Method and apparatus for an improved sample capture device.
  41. Freeman, Dominique; Boecker, Dirk; Alden, Don, Method and apparatus for analyte detecting device.
  42. Boecker, Dirk, Method and apparatus for analyte measurement test time.
  43. Boecker, Dirk; Freeman, Dominique M.; Alden, Don, Method and apparatus for body fluid sampling and analyte sensing.
  44. Briggs, Barry Dean; Marsot, Travis; Hegener, Jason; Freeman, Dominique M.; Boecker, Dirk; Alden, Don; Schumann, Matt; Beadman, Mike, Method and apparatus for body fluid sampling and analyte sensing.
  45. Freeman, Dominique; Alden, Don, Method and apparatus for body fluid sampling and analyte sensing.
  46. Freeman, Dominique M.; Boecker, Dirk; Alden, Don; Schumann, Matt; Beadman, Mike, Method and apparatus for body fluid sampling with hybrid actuation.
  47. Freeman, Dominique; Boecker, Dirk; Alden, Don, Method and apparatus for fluid injection.
  48. Lum, Paul, Method and apparatus for improving fluidic flow and sample capture.
  49. Lum, Paul; Mauze, Ganapati; Poplonski, Tomasz; Shatsky, Rebecca, Method and apparatus for improving fluidic flow and sample capture.
  50. Alden, Don; Freeman, Dominique M.; Lum, Paul, Method and apparatus for lancet launching device integrated onto a blood-sampling cartridge.
  51. Alden, Don; Freeman, Dominique M.; Lum, Paul, Method and apparatus for lancet launching device integrated onto a blood-sampling cartridge.
  52. Freeman, Dominique; Alden, Don; Boecker, Dirk; Cane, Mike; Schumann, Matt; Beadman, Mike, Method and apparatus for multi-use body fluid sampling device with sterility barrier release.
  53. Neiss, Jason; Treado, Patrick; Schweitzer, Robert C., Method and apparatus for multimodal detection.
  54. Boecker, Dirk; Alden, Don; Freeman, Dominique M., Method and apparatus for penetrating tissue.
  55. Boecker, Dirk; Alden, Don; Freeman, Dominique M., Method and apparatus for penetrating tissue.
  56. Boecker, Dirk; Alden, Don; Freeman, Dominique M., Method and apparatus for penetrating tissue.
  57. Boecker, Dirk; Alden, Don; Freeman, Dominique M., Method and apparatus for penetrating tissue.
  58. Freeman, Dominique, Method and apparatus for penetrating tissue.
  59. Freeman, Dominique M., Method and apparatus for penetrating tissue.
  60. Freeman, Dominique M., Method and apparatus for penetrating tissue.
  61. Freeman, Dominique M.; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  62. Freeman, Dominique M.; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  63. Freeman, Dominique M.; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  64. Freeman, Dominique M.; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  65. Freeman, Dominique M.; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  66. Freeman, Dominique M.; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  67. Freeman, Dominique M.; Boecker, Dirk; Alden, Don; Hegener, Jason, Method and apparatus for penetrating tissue.
  68. Freeman, Dominique; Alden, Don, Method and apparatus for penetrating tissue.
  69. Freeman, Dominique; Alden, Don, Method and apparatus for penetrating tissue.
  70. Freeman, Dominique; Alden, Don, Method and apparatus for penetrating tissue.
  71. Freeman, Dominique; Alden, Don, Method and apparatus for penetrating tissue.
  72. Freeman, Dominique; Alden, Don, Method and apparatus for penetrating tissue.
  73. Freeman, Dominique; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  74. Freeman, Dominique; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  75. Freeman, Dominique; Boecker, Dirk; Alden, Don, Method and apparatus for penetrating tissue.
  76. Freeman, Dominique M.; Boccker, Dirk; Jones, Robert; Cullen, David; MacLood, Malcolm; Carlson, William; Owen, Michael J.; Dryer, Christopher, Method and apparatus using optical techniques to measure analyte levels.
  77. Freeman, Dominique M.; Boecker, Dirk; Jones, Robert; Cullen, David; MacLeod, Malcolm; Carlsen, William; Owen, Michael J.; Dryer, Christopher, Method and apparatus using optical techniques to measure analyte levels.
  78. Freeman, Dominique M.; Alden, Don, Method for penetrating tissue.
  79. Freeman, Dominique; Alden, Don, Method for penetrating tissue.
  80. Alden, Don; Marsot, Travis, Method of manufacturing a fluid sampling device with improved analyte detecting member configuration.
  81. Briggs, Barry Dean; Freeman, Dominique; Alden, Don; Boecker, Dirk, Methods and apparatus for lancet actuation.
  82. Briggs, Barry; Freeman, Dominique; Alden, Don; Boecker, Dirk, Methods and apparatus for lancet actuation.
  83. Briggs, Barry; Freeman, Dominique; Alden, Don; Boecker, Dirk, Methods and apparatus for lancet actuation.
  84. Briggs, Barry; Freeman, Dominique; Boecker, Dirk; Alden, Don, Methods and apparatus for lancet actuation.
  85. Briggs, Barry; Freeman, Dominique; Boecker, Dirk; Alden, Don, Methods and apparatus for lancet actuation.
  86. Castle, Mark; Kugizaki, Rodney; Englert, Robert; Shoup, Thomas; Freeman, Dominique M., Methods and apparatus for lancet actuation.
  87. Castle, Mark; Kugizaki, Rodney; Englert, Robert; Shoup, Thomas; Perry, Jeff, Methods and apparatus for lancet actuation.
  88. Boecker, Dirk; Alden, Don; Freeman, Dominique M., Methods and apparatus for penetrating tissue.
  89. Sharma, Rachit; Mitra, Chayan; Tilak, Vinayak, Methods and systems to analyze a gas-mixture.
  90. Djeu, Nicholas; Muller, Andreas, Microcavity Raman sensor and method of use.
  91. Van Wagenen Richard A. (Salt Lake City UT) Geisler Jeffrey D. (Salt Lake City UT) Gregonis Donald E. (Salt Lake City UT) Coleman Dennis L. (Salt Lake City UT), Multi-channel molecular gas analysis by laser-activated Raman light scattering.
  92. King David A. (Palo Alto CA) Melton ; Jr. Hewlett E. (Sunyvale CA), Narrow-band tunable optical source.
  93. Paul G. Steffes, Non-invasive blood glucose measurement system and method using optical refractometry.
  94. Miller Mark S., Non-scanning, three-axis, self-referenced heterodyne laser air data sensing system.
  95. Bartetzko, Norbert, Printable hydrogel for biosensors.
  96. Bartetzko, Norbert; Specht, Bernfrield; Kunz, Michael, Printable hydrogels for biosensors.
  97. Jarvis John M. ; O'Donnell John J.,IEX ; O'Connor Eamon,IEX, Rayleigh backscatter control apparatus and method.
  98. King David A. ; Pittaro Richard J. ; Huber Alexander,DEX, Robust passively-locked optical cavity system.
  99. Freeman, Dominique M., Sampling module device and method.
  100. Freeman, Dominique M.; Boecker, Dirk; Alden, Don; Hartmann, Hans-Joachim; Weber, Lutz, Sampling module device and method.
  101. Freeman, Dominique; Alden, Don, Self optimizing lancing device with adaptation means to temporal variations in cutaneous properties.
  102. Batchelder David N. (London GBX) Cheng Chunwei (Yorkshire GBX) Smith Brian J. E. (London GBX) Chaney Raymond J. (Gloucestershire GBX), Spectroscopic apparatus and methods.
  103. Smith, Brian John Edward, Spectroscopic apparatus and methods.
  104. Bennett, Robert; Hayward, Ian P.; Smith, Brian J. E., Spectroscopic apparatus with dispersive device for collecting sample data in synchronism with relative movement of a focus.
  105. Subramaniam, Yerramalli; Suri, Puneet; Chang, Sylvia; Yang, Chengyong, Systems and methods for run-time sequencing run quality monitoring.
  106. Deshmukh, Ajay; Freeman, Dominique; Boecker, Dirk; Alden, Don, Tissue penetration device.
  107. Freeman, Dominique, Tissue penetration device.
  108. Freeman, Dominique M.; Alden, Don, Tissue penetration device.
  109. Freeman, Dominique M.; Alden, Don, Tissue penetration device.
  110. Freeman, Dominique M.; Alden, Don, Tissue penetration device.
  111. Freeman, Dominique M.; Alden, Don, Tissue penetration device.
  112. Freeman, Dominique M.; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  113. Freeman, Dominique M.; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  114. Freeman, Dominique M.; Shoup, Thomas; Perry, Jeffrey; Castle, Mark; Kugizaki, Rodney; Englert, Robert; Alden, Don, Tissue penetration device.
  115. Freeman, Dominique; Alden, Don, Tissue penetration device.
  116. Freeman, Dominique; Alden, Don, Tissue penetration device.
  117. Freeman, Dominique; Alden, Don, Tissue penetration device.
  118. Freeman, Dominique; Boecher, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  119. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  120. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  121. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  122. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  123. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  124. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  125. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  126. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  127. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  128. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  129. Freeman, Dominique; Boecker, Dirk; Alden, Don; Briggs, Barry Dean; Leonard, Jon Hewitt; Freeman, Ray; Gogue, George, Tissue penetration device.
  130. Freeman, Dominique; Briggs, Barry Dean; Alden, Don, Tissue penetration device.
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