Диссертация (1097947), страница 90
Текст из файла (страница 90)
P. 012081.436. Hay S.O., Roman W.C., Colket III M. B. CVD diamond deposition processes investigation: CARSdiagnostics/modelling // J. Mater. Res. 1990. V. 5. No 11. P. 945.437. Umemoto H., Ansari S.G., Matsumura H. Rotational and vibrational state distributions of H2activated on a heated tungsten filament // J. Appl. Physics 2006 V.99 P. 043510.438. Robert J. Hall, Alan C. Eckbreth Coherent anti-Stokes Raman Spectroscopy (CARS): Applicationto Combustion Diagnostics // Laser Applications.
1984. V. 5. P. 214.439. Antcliff R. R., Jarrett O., Rogers R.C. CARS System for Turbulent Flame Measurements //Journal of Propulsion and Power. 1985. V. 1. No. 3. P. 205.482440. Дьяков А. С., Подвиг П. Л., Позолотин А. В. Применение КАРС - спектроскопии дляизучения горения и нестационарных процессов за ударной волной // Журнал ИзвестияСибирского Отделения Академии Наук СССР. Cерия Технических Наук. 1990. Вып. 4. C. 116.441. Осин М.
Н. Метод КАРС и его использование для диагностики состояния газа. // Сб. тр.«Современные проблемы авиационной науки и техники в работах молодых специалистов,Информационно - Измерительные Системы Для Аэрогидродинамических Исследований».Часть 2. – Жуковский: ЦАГИ, 1981. С. 103.442. Clauss W., Klimenko D. N., Oschwald M., Vereschagin K. A., Smirnov V. V., Stelmakh O. M.,Fabelinskii V. I. CARS investigation of hydrogen Q - branch linewidths at high temperatures in a high- pressure pulsed burner // Journal Of Raman Spectroscopy. 2002.
V. 33. Р. 906.443. Алден М. Применение КАРС - спектроскопии для диагностики в условиях высокихтемператур // Квантовая Электроника. 1988. Т. 15. № 6. С. 1173.444. Montello A., Burnette D., Nishihara M., Lempert W.R., Adamovich I.V. Dynamics of RapidLocalized Heating in Nanosecond Pulse Discharges for High Speed Flow Control // Journal of FluidScience and Technology. 2013. V. 8. P.
147.445.Little J., Takashima K., Nishihara M., Adamovich I., Samimy M. Separation Control withNanosecond Pulse Driven Dielectric Barrier Discharge Plasma Actuators // AIAA Journal. 2012. V.50. P. 350.446. Taran J.-P. Optical Diagnostics in Rarefied Flows // Chinese Journal of Aeronautics. 2006. V. 19.P.
151.447. Roy S., Gord J.R., Patnaik A.K. Recent advances in coherent anti-Stokes Raman scatteringspectroscopy: Fundamental developments and applications in reacting flows // Progress in Energy andCombustion Science. 2010. V. 36. P. 280.448. Slenczka A., Marowsky G., Vodegel M. H2 Vibrational CARS Thermometry // Applied Physics.1988. V. B 47. P. 41.449.
Grisch F., Bouchardy P., Pealat M., Chanetz B., Pot T., Coet M.C. Rotational Temperature andDensity Measurements in a Hypersonic Flow by Dual-Line CARS // Applied Physics. 1993. V. B 56.P. 14.450. Kozlov P.V., Makarov V.N., Pavlov V.A., Shatalov O.P. Experimental Investigation of VibrationalDeactivation of CO Molecules in a Supersonic Gas Flow // Fluid Dynamics. 2000. V. 35.
P. 926.451. Grisch F., Bouchardy P., Joly V. et al. Coherent Anti-Stokes Raman Scattering Measurementsand Computational Modeling of Nonequilibrium Flow // AIAA Journal. 2000. V. 38. P. 1669.452. Magre P., Bouchardy P. Nitrogen and Hydrogen Coherent Anti-Stokes Raman ScatteringThermometry in a Supersonic Reactive Mixing Layer // Proceedings of the Combustion Institute.2000. V. 28. P. 697.483453. Magre P., Collin G., Pin O., Badie J.M., Olalde G., Clement M. Temperature Measurements byCARS and an Intrusive Probe in an Air-Hydrogen Supersonic Combustion // International Journal ofHeat and Mass Transfer.
2001. V. 44. P. 4095.454. Vereschagin K.A., Smirnov V.V., Stelmakh O.M., Fabelinsky V.I., Sabelnikov V.A., Ivanov V.,Clauss W., Oschwald M. Temperature measurements by coherent anti-Stokes Raman spectroscopy inhydrogen-fuelled scramjet combustor // Aerospace Science and Technology. 2001. V. 5. P. 347.455. Cutler A.D., Danehy P.M., Springer R.R., O’Byrne S., Capriotti D.P., DeLoach R. Coherent AntiStokes Raman Spectroscopic Thermometry in a Supersonic Combustor // AIAA Journal. V. 41. P.2451.456. O’Byrne S., Danehy P.M., Tedder S.A., Cutler A.D.
Dual-pump coherent anti-Stokes Ramanscattering measurements in a supersonic combustor // AIAA Journal. 2007. V. 45. P. 922.457. Cutler A.D., Magnotti G., Cantu L., Gallo E., Danehy P.M., Rockwell R., Goyne C., McDanielJ.C. Dual-Pump CARS Measurements in the University of Virginia’s Dual-Mode Scramjet:Configuration A // AIAA-2012-0114, 50thAIAA-2012-0114 Aerospace Sciences Meeting Includingthe New Horizons Forum and Aerospace Exposition, Nashville, TN, January 9-12, 2012.458. Cutler, A.D., Magnotti, G., Cantu, L.M.L., Gallo, E.C.A., Danehy, P.M., Baurle, R., Rockwell,R.D., Goyne, C.P., McDaniel, J.C. Measurement of Vibrational Nonequilibrium in a SupersonicFreestream using Dual-Pump CARS // AIAA Paper 2012-3199, 28th AIAA AerodynamicMeasurement Technology, Ground Testing, and Flight Testing Conference, New Orleans, 25-28 June2012.459.
Cutler A.D., Magnotti G., Cantu L.M.L., Gallo E.C.A. Danehy P.M., Rockwell R.D., Goyne C.P.,McDaniel J.C. Dual-Pump CARS Measurements in the University of Virginia’s Dual-Mode Scramjet:Configuration “C” //AIAA-2013-0335, 51st Aerospace Sciences Meeting, Grapevine, TX, 7-10 Jan,2013.460. Rich J.W., Bergman R.C., Lordi J.A. Electrically Excited Supersonic Flow Carbon MonoxideLaser // AIAA Journal. 1975. V. 13.
P. 95.461. Nishihara M., Takashima K., Jiang N., Lempert W.R., Adamovich I.V., Rich J.W., Doraiswamy S.,Candler G.V. Development of a Mach 5 Nonequilibrium Flow Wind Tunnel // AIAA Journal. 2012. V.50. P. 2255.462. Montello A., Nishihara M., Rich J.W., Adamovich I.V., Lempert W.R Picosecond CARSMeasurements of Vibrational Distribution Functions in a High Pressure Plenum of a NonequilibriumHypersonic Wind Tunnel // AIAA Journal. 2012. V. 50. P. 1367.463. Montello A., Nishihara M., Rich J.W., Adamovich I.V., Lempert W.R. Picosecond CARSMeasurements of Nitrogen Rotational/ Translational and Vibrational Temperature in a NonequilibriumMach 5 Flow // Experiments in Fluids. 2013.
V. 54. P. 1422.484464. Studer D., Vervisch P. Raman scattering measurements within a flat plate boundary layer in aninductively coupled plasma wind tunnel // Journal of Applied Physics. 2007. V. 102. P. 033303.465. Studer D., Boubert P., Vervisch P. NO excitation and thermal non-equilibrium within a flat plateboundary layer in an air plasma // Applied Physics B. 2010.
V. 101. P. 689.466. Studer D., Boubert P., Vervisch P. Demonstration of NO production in air plasma–metallicsurface interaction by broadband laser-induced fluorescence // Journal of Physics D: Applied Physics.2010. V. 43. P. 315202.467. Wehr L., Meier W., Kutne P., Hassa C. Single-pulse 1D laser Raman scattering applied in a gasturbine model combustor at elevated pressure // Proceedings of the Combustion Institute. 2007. V. 31.P. 3099.468. Stopper U., Aigner M., Axa H., Meier W., Sadanandan R., Stöhr M., Bonaldo A. PIV, 2D-LIF and1D-Raman measurements of flow field, composition and temperature in premixed gas turbine flames //Experimental Thermal and Fluid Science. 2010.
V. 34. P. 396.469. Gabet K.N., Jiang N., Lempert W.R., Sutton J.A. Demonstration of High-Speed 1D RamanScattering Line Imaging // Applied Physics B: Lasers and Optics. 2010. V. 101. P. 1.470. Ploenjes E., Palm P., Lee W., Chidley M. D., Adamovich I.V., Lempert W.R., Rich J. W.Vibrational Energy Storage in High-Pressure Mixtures of Diatomic Molecules // Chemical Physics.2000. V. 260.
P. 353.471. Lee W., Adamovich I.V., Lempert W.R. Optical Pumping Studies of Vibrational Energy Transferin High-Pressure Diatomic Gases // Journal of Chemical Physics. 2001. V. 114. P. 1178.472. Plönjes E., Palm P., Lee W., Lempert W.R., Adamovich I.V. RF Energy Coupling to HighPressure Optically Pumped Nonequilibrium Plasmas // Journal of Applied Physics. 2001. V. 89. P.5911.473.
Lee W. Development of Raman and Thomson Scattering Diagnostics for study of Energy Transferin Nonequilibrium, Molecular Plasmas. PhD thesis. The Ohio State University. 2003474. Ahn T., Adamovich I.V., Lempert W.R. Determination of Nitrogen V-V Transfer Rates byStimulated Raman Pumping // Chemical Physics.
2004. V. 298. P. 233.475. Ahn T., Adamovich I., Lempert W.R. Stimulated Raman Scattering Measurements of V-V Transferin Oxygen // Chemical Physics. 2006. V. 323. P. 532.476. Ahn T., Adamovich I., Lempert W.R. Stimulated Raman Scattering Measurements of H2Vibration-Vibration Transfer // Chemical Physics.
2007. V. 335. P. 55.477. Валянский С.И., Верещагин К.А., Волков Ю.А. и др. Измерение константы скорости VVобмена в азоте при бигармоническом возбуждении // Квантовая электроника. 1984. Т. 11. № 9.C. 1833.485478. Fabelinskii V.I., Holz L., Smirnov V.V., Vereschagin K.A.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
