$RAMANLIDARMEASUREMENTSFORBOUNDARYLAYER
$LIDARDETECTIONOFSMALLAEROSOLSIZE
$SIGNATURESOFDYNAMICALPROCESSES
| Universities should be more than their athletics programs, Philbrick, C. R., News & Observer, News & Observer, October 2017, p. 9A |
$RESONANCEENHANCEDRAMANSCATTERING
$ATOMSPHERICMEASUREMENTS
$ATMOSPHERICABSORPTIONVERSUSDEEPULTRAVIOLET
| Critical thinking needs upgrading, Philbrick, C. R., News & Observer, News & Observer, November 2016, p. 10A |
| Folks, it is time to be alarmed, Philbrick, C. R., News & Observer, News & Observer, September 2016 |
$DEEPULTRAVIOLETRAMANSPECTROSCOPY
$UVRESONANCERAMANSIGNATURES
$LIDARINVESTIGATIONSOFATMOSPHERICDYNAMICS
$OPTICALPROPERTIESOFATMOSPHERICAEROSOLS
| Book Review: Probing the Sky with Radio Waves: From Wireless Technology to the Development of Atmospheric Science by Chen-Pang Yeang, C. Russell Philbrick, American Association of Physics Teachers, American. Journal of Physics, Vol. 82, No. 8, 2014, pp. 818 - 819 |
| Laser remote sensing of species concentrations and dynamical processes, Philbrick, C. R., H. D. Hallen, Laser Radar Technology and Applications XIX; and Atmospheric Propagation XI, Vol. 9080, SPIE Proceedings, 2014, pp. 90800Z-1 - 90800Z-15, DOI: 10.1117/12.2050696, CCC: 0277-786X/14 |
| Remote aerosol species-identification using IR scattering spectroscopy, Niu, S., C. R. Philbrick, H. D. Hallen, Laser Radar Technology and Applications XIX; and Atmospheric Propagation XI, Vol. 9080, SPIE, 2014, p. 0, DOI: 10.1117/12.2050689, CCC: 0277-786X/14 |
$MEASUREMENTOFATMOSPHERICOXYGEN
$EYESAFECOMPACTRAMANLIGHTDETECTION
$UNDERSTANDINGLIDARRETURNS
$OPTICALEXTINCTIONDEPENDENCE
$USINGALASERAUREOLE
$MULTISTATICLIDARMEASUREMENTS
$COHERENCEINUVRESONANCERAMANSPECTROSCOPY
$RESONANCEENHANCEDRAMANSCATTER
$ATMOSPHERICAEROSOLDISTRIBUTIONSANDCLOUDPROPERTIESUSINGMULTIWAVELENGTH
$REMOTESENSINGOFATMOSPHERICAEROSOLPROPERTIES
| Sensitivity of the polarization ratio method to aerosol concentration, Snyder, M. G., A. M. Brown, C. R. Philbrick, Laser Radar Technology and Applications XVI, Vol. 8037, SPIE, 2011, pp. 80370K-1 - 80370K-15, DOI: 10.1117/12.884206, CCC: 0277-786X/11 |
| Human Responses to Climate Change, Philbrick, C. Russell, Presentation, 2011, 49 pages |
$SEARCHINGFORWATEREARTHS
$BRIGHTNESSANDPOLARIZATION
$CHARACTERISTICSOFATMOSPHERICAEROSOLS
$LIGHTSCATTERINGFROMEXOPLANETOCEANS2010
$OPTICALREMOTESENSINGTECHNIQUE
| Atmospheric aerosol characterization using multi-wavelength, multistatic light scattering, Brown, A. M., M. G. Snyder, L. Brouwer, C. R. Philbrick, Laser Radar Technology and Applications XV, Vol. 7684, SPIE, 2010, pp. 76840I-1 - 76840I-11, DOI: 10.1117/12.850080, CCC: 0277-786X/10 |
$LIGHTSCATTERINGFROMEXOPLANETOCEANS2011
$LIGHTSCATTERINGFROMEXOPLANETOCEANS2010NOV
$REMOTESENSINGOFCHEMICAL
$MEASUREMENTSOFCONTRIBUTORSTOATMOSPHERIC
$MULTIWAVELENGTHMULTIANGULARLIDAR
$OBSERVATIONALNEEDSFORAFOURDIMENSIONALAIRQUALITY
| Supercontinuum laser sensing of atmospheric constituents, Edwards, P. S., A. M. Wyant, D. M. Brown, Z. Z. Liu, C. R. Philbrick, Laser Radar Technology and Applications XIV, Vol. 7323, SPIE, 2009, pp. 73230S-1 - 73230S-8, DOI: 10.1117/12.818697, CCC: 0277-786X/09 |
$SIMULATEDDETECTIONANDINVERSION
$ATMOSPHERICABSORPTIONSPECTROSCOPY
$MESOSPHERICDUSTANDITSSECONDARYEFFECTS
$APPLICATIONSOFREALWORLDGASDETECTION
$LONGPATHSUPERCONTINUUMABSORPTIONSPECTROSCOPY
$SUPERCONTINUUMLIDARAPPLICATIONS
$RESONANCERAMANMEASUREMENTSUTILIZINGADEEPUVSOURCE
$REGIMESOFRESONANCERAMANUTILITY
$ANALYSISOFALTERNATIVES
$PRELIMINARYOBSERVATIONSOFRESONANCEENHANCEDRAMAN
$PRELIMINARYLANGMUIRPROBEANALYSIS
$NITTANYSATASTUDENTSATELLITEMISSION
$SPACEPROJECTSANDINTERNATIONALCOLLABORATION
$THESTUDENTSPACEPROGRAMSLABORATORY
$EDUCATIONALADVANTAGESAFFOREDBYTHEESPRITPROJECT
| The ESPRIT rocket payload launch: initial comparison with ground-based atmospheric measurements, Edwards, P. S., C. R. Philbrick, L. H. Surdal, M. G. Johnsen, R. Latteck, G. Baumgarten, Proceedings, 18th ESA Symposium on 'European Rocket and Balloon Programmes and Related Research', European Space Agency (ESA), November 2007, pp. 139 - 144 |
$CHARACTERIZATIONOFNOCTILUCENTCLOUDS
| Noctilucent cloud overview, Philbrick, C. R., Proceedings, 18th ESA Symposium on 'European Rocket and Balloon Programmes and Related Research', European Space Agency (ESA), November 2007, pp. 127 - 132 |
| Multiple scattering measurements in optically dense media, Park, J. H., C. R. Philbrick, Journal of Applied Remote Sensing, SPIE, 2007, p. 14 |
| Chemical species measurements using lidar techniques, Philbrick, C. R., Proceedings 29th Review of Atmospheric Transmission Models Meeting, U.S. Air Force, 2007, pp. 1 - 7 |
$MULTISTATICLIDAR
$SUPERCONTINUUMLIDARMEASUREMENTS
$WHITELIGHTLIDAR
$DEEPULTRAVIOLETPRERESONANCERAMAN
$ADVANCEDOPTICALTECHNIQUESFORMEASUREMENTS
| Advanced optical techniques for measurements of atmospheric constituents, Brown, D. M., A. H. Willitsford, K. Shi, Z. Z. Liu, C. R. Philbrick, Air Force Research Laboratory: 072806, U.S. Air Force, 2006, pp. 1 - 8 |
$ANOVERVIEWOFSPACESCIENCEANDENGINEERINGEDUCATION
| Planet Earth (Avoiding a Venus Disaster), Philbrick, C. Russell, Presentation, 2006, 40 pages |
| ESPRIT Payload Launch, Philbrick, C. Russell, Presentation, 2006, 14 pages |
| ESPRIT – Pre-launch Readiness Review, Philbrick, C. Russell, Presentation, 2006, 14 pages |
$LIDARTECHNIQUESAPPLIEDTOREMOTEDETECTIONOFCHEMICAL
$AIRBORNENATURALGASEMISSIONLIDAR
| Multistatic lidar profiling of urban atmospheric aerosols, Novitsky, E. J., C. R. Philbrick, Journal of Geophysical Research, Vol. 110, American Geophysical Union (AGU), 2005, pp. 1 - 10, DOI: 10.1029/2004JD004723, CCC: 0148-0227/05/2004JD004723 |
$ENVIROMENTDEFINITIONUSINGRAMANLIDAR
| Education in space science, Philbrick, C. R., Proceedings of the 17th ESA Symposium on European Rocket and Balloon Programmes and Related Research, Vol. ESA SP-590, European Space Agency (ESA), 2005, pp. 25 - 32 |
$LIDARDESCRIPTIONOFTHEEVAPORATIVEDUCT
$ATMOSPHERICAEROSOLDISTRIBUTIONANDCLOUDPROPERTIES
| Raman Lidar Characterization of the Meteorological, Electromagnetic and Electro-optical Environment, Philbrick, C. R., Lidar Remote Sensing for Environmental Monitoring VI, Vol. 5887, SPIE Proceedings, 2005, pp. 58870F-1 - 58870F-15, DOI: 10.1117/12.620911 |
$RAMANLIDARMEASUREMENTSOFAEROSOLDISTRIBUTION
| Perspectives for a Modern Engineer: Engineering in the 21st Century, Philbrick, C. Russell, Presentation, 2005, 63 pages |
$ACOMPARATIVESTUDYOFPROGNOSTICMMSMETEOROLOGICALMODELING
| A multistatic receiver for the monitoring of lower troposphere aerosols and particulate matter, Novitsky, E. J., C. R. Philbrick, ILRC, Vol. 1, European Space Agency (ESA), 2004, pp. 219 - 222, ISSN: 0379-6566, ISBN: 92-9092-872-7 |
$TEMPERATUREDEPENDENCEOFABSORPTIONCROSSSECTION
$ACTIVEREMOTEDETECTIONOFNATURALGAS
$SURVEYOFATMOSPHERICREMOTESENSINGTECHNIQUES
$RAMANLIDARMEASUREMENTSOFOZONEPOLLUTION
$STUDYOFAIRBORNEPARTICULATEMATTER
$LIDARMEASUREMENTSOFAIRBORNEPARTICULATEMATTER
| Application of Raman lidar advancements in meteorology and air quality monitoring, Philbrick, C. R., Lidar Remote Sensing for Industry and Environment Monitoring Ill, Vol. 4893, SPIE Proceedings, March 2003, pp. 1 - 9, DOI: 10.1117/12.466124 |
$EVALUATINGTHEPERFORMANCEOFACOMPUTATIONALLYEFFICIENTMMSCALMETSYSTEM
$ATMOSPHERICOPTICALPROPAGATION
$ADVANCESINUNDERSTANDINGURBANAIRPOLLUTION
$SUMMARYOFMETEOROLOGICALCONDITIONS
$RAMANLIDARMEASUREMENTSOFTROPOSPHERICOZONE
$THEINFLUENCEOFCANADIANWILDFIRESONAIRQUALITY
$EXAMINATIONOFTHEINFLUENCEOFAFRONTALPASSAGE
$DEVELOPMENTOFANAIRPOLLUTIONEVENTNEOPSDEP2002INVESTIGATION
$CHARACTERIZATIONOFNOCTURNALJETS
| EM & EO Properties of the Lower Atmosphere, Philbrick, C. R., BACIMO 2003 Conference Proceedings, U.S. Navy, 2003, pp. 1 - 11 |
$EVALUATIONOFFUGITIVEDUSTDEPOSITION
$ACOMPARISONSTUDYOFRAMSSIMULATIONS
$ALARGEEDDYSIMULATIONSTUDYOFTHECONVECTIVEBOUNDARYLAYER
| Processes controlling urban air pollution in the northeast: summer 2002, Philbrick, C. R., W. F. Ryan, R. D. Clark, P. K. Hopke, S. R. McDow, Processes Controlling Urban Air Pollution, Commonwealth of Pennsylvania, Department of Environmental Protection, July 2003, pp. 1 - 71 |
$EVALUATINGOZONEPREDICTIONSFROMPHOTOCHEMICALMODELS
| Raman Lidar Descriptions of Lower Atmosphere Processes, Philbrick, C. R., Lidar Remote Sensing In Atmospheric and Earth Sciences, Defence R&D Canada, 2002, pp. 535 - 545 |
$OVERVIEWOFTHENARSTONEOPSPROGRAM
$RAMANLIDARMEASUREMENTS
| Raman lidar techniques applied to meteorological sensing, Philbrick, C. R., Bulletin of the American Meteorological Society, American Meteorological Society, 2002, pp. 1 - 9 |
$EVALUATIONOFTRANSPORTANDDEPOSITION
$REGIONALEASTATMOSPHERICLIDARMESONET
$AIRBORNEDUSTANDAEROSOLSDESCRIPTION
| Raman lidar techniques for air pollution measurements, Philbrick, C. R., Proceedings, SPIE 4484, Lidar Remote Sensing for Industry and Environment Monitoring II, SPIE Proceedings, January 2002, pp. 136 - 150, DOI: 10.1117/12.452773 |
$THEEFFECTSOFLOCALANDREGIONALSCALECIRCULATIONSONAIRPOLLUTANTS
$NUMERICALINVESTIGATIONOFTHEEFFECTSOFBOUNDARYLAYER
| Overview of Raman Lidar Techniques for Air Pollution Measurements, Philbrick, C. R., Lidar Remote Sensing for Industry and Environment Monitoring II, Vol. 4484, SPIE, 2001, pp. 136 - 150, CCC: 0277-786X/02 |
$LASERANDBIOLOGICALSTANDOFFDETECTION
$OPTICALSCATTERINGBYAIRBORNEPARTICLES
| The Future of the Blue Planet, Philbrick, C. Russell, Presentation, 2001, 67 pages |
| NARSTO-NE-OPS 2001 Field Campaign, Philbrick, C. Russell, Presentation, August 2001, 2 pages |
$RAMANLIDARCONTRIBUTIONSTOUNDERSTANDINGAIRQUALITY
$NUMERICALINVESTIGATIONOFBOUNDARYLAYER
$APPLICATIONOFRAMANLIDARTOAIRQUALITYMEASUREMENTS
$CHARACTERIZATIONOFPROPERTIESOFAIRBORNEPARTICULATEMATTE
$EVOLUTIONOFAIRPOLLUTIONEVENTS
$INVESTIGATIONSOFOZONEANDPARTICULATEMATTERAIRPOLLUTION
$LIDARMEASUREMENTSDESCRIBEDISTRIBUTIONOFAIRBORNEPARTICULATEMATTER
| Investigations of Factors Determining the Occurrence of Ozone and Fine Particles in Northeastern USA, Philbrick, C. R., Proceedings of a Specialty Conference on Measurement of Toxic and Related Air Pollutants, U.S. Environmental Protection Agency's National Exposure Research Laboratory, 1998, pp. 248 - 260, ISBN: 0-923204-15-6 |
| Raman Lidar Capability to Measure Tropospheric Properties, Philbrick, C. R., ILRC, Vol. 98p2, European Space Agency (ESA), 1998, pp. 1 - 5 |
$ATMOSPHERICOPTICALEXTINCTION
$OPTICALREMOTESENSINGOFATMOSPHERICPROPERTIES
$COASTALVARIABILITYANALYSIS
$LAPSLIDARMEASUREMENTSATTHEARM
$RAMANDIALTECHIQUEFOROZONE
$OPTICALEXTINCTIONINCLOUDSATMULTIPLEWAVELENGTHS
| Characterization of optical extinction profiles using Raman lidar techniques, O'Brien, M. D., C. R. Philbrick, Air Force Research Laboratory, AF Opt Trans AFRL-VS-HA-TR-98-0057, Air Force Systems Command, USAF, 1997, pp. 156 - 164 |
$ANALYSISOFVISIBLETRANSMISSIOMETERDATA
$DESIGNOFALIDARRECEIVERWITHFIBEROPTICOUTPUT
$BISTATICLIDARMEASUREMENT
$LIDARMEASUREMENTSTODESCRIBETHEELECTROOPTICALENVIRONMENT
$TEMPORALANDSPATIALCHARACTERISTICSOFSURFZONEPLUMES
$LIDARMEASUREMENTSOFAEROSOLSCATTERING
$OPTICALEXTINCTIONFROMRAMANLIDARMEASUREMENTS
$LIDARMEASUREMENTSOFMETEOROLOGICALPROPERTIES
$REMOTESENSINGBYACTIVEANDPASSIVEOPTICALTECHNIQUES
$LOWERTROPOSHERICTEMP
$COMPARISONOFLIDARWATERVAPOR
$COMPARISONWITHLIDARDERIVEDWATERVAPOR
$ABISTATICLIDARRECEIVER
| Lidar atmospheric profile sensor (LAPS): a remote sensing prototype, Philbrick, C. R., Proceedings of the 18th Annual Conference on Atmospheric Transmission Models, U.S. Air Force, April 1996, p. 1, PL-TR-96-2080, Special Reports, No. 278 |
$OPTICALREMOTESENSINGOFATMOSPHERICPOLLUTANTS
$COMPARISONOFLIDARWATERVAPORMEASUREMENTS
$COMPARISONOFLIDARWATERVAPORMEASUREMENTSUSINGRAMANSCATTER
$INITIALRESULTSFROMAVOLUMESCANNINGTHREEWAVELENTHS
| Rotational Raman Lidar for Temperature Measurements in the Troposphere, Haris, P. A. T., C. R. Philbrick, Conference Proceedings, Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing, IEEE Proceedings, 1995, pp. 141 - 144, DOI: 10.1109/COMEAS.1995.472383 |
$1995OPTICALPROPERTIESANDDISTRIBUTION
$ANALYSISOFATMOSPHERICWATERVAPOR
| Atmospheric extinction from Raman lidar and a bi-static remote receiver, Stevens, T. D., C. R. Philbrick, Conference Proceedings, Second Topical Symposium on Combined Optical-Microwave Earth and Atmosphere Sensing, IEEE Proceedings, 1995, pp. 170 - 173, DOI: 10.1109/COMEAS.1995.472374 |
| Remote Sensing of Atmospheric Chemical Contamination, Philbrick, C. R., P. H. Kurtz, Proceedings of 36th Annual Meeting, INMM, Vol. XXIV, Institute of Nuclear Materials Management (INMM), December 1995, pp. 823 - 828, OSTI Identifier: 225375 |
$ACOUSTOOPTICALTUNABLEFILTER
$LIDARATMOSPHERICMEANSURESOFTROPOSPHERICREFRACT
$MULTIPLEWAVELENGTHRAMANLIDARMEASURE
$LIDARMEASUREMENTSOFREFRACT
$LIDARMEASUREMENTSOFMIDDLEANDLOWERATMOSPHERPROPERTIES
$LATITUDINALVARIATIONOFMIDDLEATMOSPHERICDENSITY
$LATITUDINALLIDARMAPPINGOFSTRATOSPHERICPARTICLELAYERS
$LIDARMEARUREDREFRACTIVEEFFECTS
$LIDARANDRADIOSONDEMEASUREMENTS
| Raman lidar measurements of atmospheric properties, Philbrick, C. R., Atmospheric Propagation and Remote Sensing III, Vol. 2222, SPIE Proceedings, 1994, pp. 922 - 931, DOI: 10.1117/12.177985, CCC: 0-8194-1526-X/94 |
| Lidar measurements of water vapor concentrations in the troposphere, Philbrick, C. R., Proceedings of IGARSS '94 - 1994 IEEE International Geoscience and Remote Sensing Symposium, IEEE, 1994, pp. 2043 - 2045, DOI: 10.1109/IGARSS.1994.399648, ISBN: 0-7803-1497-2, INSPEC Accession Number: 5032356 |
$REFRACTIVEPROPOGATIONEFFECTS
$TWOWAVELENGTHLIDARMONITORING
$ANALYSISOFATMOSPHERICWATER
| Lidar Measurements of Aerosol Scattering in the Troposphere and Stratosphere, Philbrick, C. R., D. B. Lysak, Jr., Y. -C. Rau, IEEE ATS3, Institute of Electrical and Electronics Engineers, 1993, pp. 107 - 110 |
$ACOMPARISONOFMICROWAVERADIOMETERLIDARMETEOROLOGICALBALLOON
$AEROSOLMAPPINGOFTHEATMOSPHERE
| Tropospheric water vapor concentrations measured on a Penn State/ARL lidar, McKinley, S. C., C. R. Philbrick, IEEE Proceedings, Combined Optical-Microwave Earth and Atmosphere, IEEE, 1993, pp. 185 - 188 |
$LASERSCATTERINGINCLOUDS
$OPTICALPROPERTIESANDDISTRIBUTIONOFSTRATOSPHERICAEROSOLS
| Atmospheric extinction from Raman lidar and a bi-static remote receiver, Stevens, T. D., C. R. Philbrick, TA.8, IEEE, 1993, pp. 170 - 173 |
$INITIALRESULTSFROMAVOLUMESCANNING2
| Rotational Raman Lidar for temperature measurements in the troposphere, Haris, P. A. T., C. R. Philbrick, TW.7, IEEE, 1993, pp. 131 - 144 |
$LIDAROBSERVATIONSOFMTPINATUBOAEROSOLS
$ADIRECTDOPPLERDETECTIONLIDAR
$OBSERVATIONSOFIONANDSODIUMLAYER
$ATMOSPHERICMEASUREMENTSUSINGTHELAMPLIDAR
| Transmission of gravity waves and planetary waves in the middle atmosphere based on lidar and rocket measurements, Philbrick, C. R., B. H. Chen, Advances in Space Research, Vol. 12, No. 10, COSPAR (Committee on Space Research), 1992, pp. 303 - 306 |
$THEEARTHSMIDDLEANDUPPERATMOSPHERE
$GETWAYSPECIALEXPERIMENT
| The Voyage of the Lidar, Stevens, T. D., P. A. T. Haris, C. R. Philbrick, D. B. Lysak, Jr., D. Upshaw, U. von Zahn, T. Collins, J. P. Martone, Research/Penn State, Vol. 13, No. 4, The Pennsylvania State University, December 1992, pp. 18 - 21 |
$LADIMASTAKESCSSLTOTHEANTARCTIC
| Lidar profiles of atmospheric structure properties, Philbrick, C. R., Earth and Atmospheric Remote Sensing, Vol. 1492, SPIE, 1991, pp. 76 - 84 |
$TURBULENCEENERGYDISSIPATIONRATES
$EVIDENCEOFGRAVITYWAVESATURATION
$RAMANAUGMENTATIONFORRAYLEIGHLIDAR
$MEASUREMENTSOFTHEHIGHLATITUDEMIDDLEATMOSPHERDYNAMICSTRUCTURE
$REMOTESENSINGOFSTRUCTUREPROPERTIES
$MEANSTATEANDLONGTERMVARIATIONSOFTEMPERATURE
$MEANWINDSINTHEWINTERMIDDLEATMOSPHERE
| Large scale structure of the stratosphere and the lower mesosphere (20–60 km) over the northern hemisphere during the MAP/WINE campaign, Petzoldt, K., R. Lenschow, A. Hauchecorne, G. A. Kokin, W. Meyer, A. O'Neill, C. R. Philbrick, F. J. Schmidlin, R. Thomas, Journal of Atmospheric and Terrestrial Physics, Vol. 49, Nos. 7-8, Pergamon Press, Oxford, United Kingdom, July 1987, pp. 621 - 637, DOI: 10.1016/0021-9169(87)90008-0 |
| ARL Electro-Optics Laboratory Lidar Applications, Philbrick, C. R., The Pennsylvania State University, 1987, pp. 36 - 40 |
$SIMULTANEOUSLIDARMEASUREMENTSOFTHESODIUMLAYER
| Particle size distributions and extinction determined by a unique bistatic lidar technique, Stevens, T. D., C. R. Philbrick, Proceedings of IGARSS '96. 1996 International Geoscience and Remote Sensing Symposium, IEEE, 1996, pp. 1253 - 1256, DOI: 10.1109/IGARSS.1996.516629, ISBN: 0-7803-3068-4 |
$SIMULTANEOUSROCKETANDMSTRADAR
$NEUTRALAIRTURBULENCEINTHEUPPERATMOSPHERE
| The 'CAMP' Campaign 1982, Kopp, E., F. Bertin, L. G. Bjorn, P. H. G. Dickinson, C. R. Philbrick, G. Witt, Proceedings of the 7th ESA Symposium on European Rocket & Balloon Programmes and Related Research, European Space Agency (ESA), 1985, pp. 117 - 123 |
$DENSITYANDTEMPERATURESTRUCTUREOVERNORTHERNEUROPE
$ATMOSPHERICCOMPOSITION
$WINDSTRUCTUREANDVARIABILITYINTHEMIDDLEATMOSPHERE
$THECOLDARCTICMESOPAUSEPROJECT1982
$THEMIDDLEATMOSPHEREABOVEANDOYANORWAY
$SUPERCOLDARCTICMESOPAUSEPROJECT
$SUPERCAMPARESEARCHPROJECT
$TEMPERATUREMEASUREMENTSDURINGTHECAMPPROGRAM
$ASOLIDSTATERUNABLELASERFORRESONANCEMEASUREMENTS
$THESTATEEXPERIMENTMESOSPHERICDYNAMICS
$NOTEONADISCUSSIONABOUTIONCOMPOSITION
$THESTATESTRUCTUREANDATMOSPHERICTURBULENCEENVIROMENTEXPERIMENT
$INSITUANDREMOTESENSINGOFTHERMOSPHERICWINDS
$PROPERTIESOFTHENEUTRALDENSITYANDCOMPOSITION
$VERTICALDENSITYANDTEMPERATURESTRUCTURE
| F-region ion composition modeling, Philbrick, C. R., K. H. Bhavnani, Advances in Space Research, Vol. 2, No. 10, COSPAR (Committee on Space Research), 1983, pp. 253 - 257, CCC: 0273-1177/83/100253-05 |
| Wind and temperature induced effects on mesospheric ion composition and infrared minor constituents, Kopp, E., C. R. Philbrick, ESA Sixth ESA Symp. on European Rocket and Balloon Programs and Related Res, ESA Proceedings, June 1983, pp. 41 - 46, SEE N83-33397 21-46, 1983ESASP.183...41K |
$RESPONSEOFTHETOTALELECTRONCONTENT
$WINDSTRUCTUREANDSMALLSCALEWINDVARIABLITY
| Measurements of Structural Features in Profiles of Mesospheric Density, Philbrick, C. R., Handbook for MAP, Vol. 2, Middle Atmosphere Program, 1981, pp. 333 - 340 |
$COMPARISONOFPLASMADENSITIES
$ATMOSPHERICINFRAREDRADIANCEVARIABILITY
$ATMOSPHERICDENSITYTEMPERATUREANDWINDMEASUREMENTTECHNIQUES
$GROUNDBASEDLIDARFORUPPERATMOSPHERICDENSITIES
| Empirical F-region model development based on S3-1 satellite measurements, Philbrick, C. R., Symposium on the Effect of the Ionosphere on Radiowave Systems, U.S. Navy, 1981, pp. 1 - 7, Bibliographic Code: 1981eirs.sympR....P, Preprints. (A82-18051 06-32) |
$ATMOSPHERICSTRUCTURE
$MODELSOFTHEVARIABILITYOFATMOSPHERICPROPERTIES
$ATMOSPHERICSTRUCTUREMEASUREMENTS
$MESOSPHERICDENSITYVARIABILITY
$COMPARISONBETWEENPLASMADENSITIES
$TOTALELECTRONCONTENTOBSERVATIONS
$KWAJALEINREFENCEATMOSPHERES
$ADYNAMICMODELOFTHEMESOSPHERE
$MOMENTUMSOURCESSIGNATURES
$MEASUREMENTSOFATMOSPHERICDENSITY
$ATMOSPHERICPROPERTIESFROMMEASUREMENTSATKWAJALEINATOLL
$COMPOSITIONOFTHEMIDLATITUDEWINTER
$VARIATIONSINATMOSPHERICCOMPOSITION
$VARIATIONSINTHEATMOSPHERICCOMPOSITION
$CORRELATIVESATELLITEMEASUREMENTS
| Recent Satellite Measurements of Upper Atmospheric Composition, Philbrick, C. R., SPACE RESEARCH, Vol. XVI, COSPAR (Committee on Space Research), 1976, pp. 290 - 295 |
| Satellite Measurements of Neutral Atmospheric Composition in the Altitude Range 150-450 km, Philbrick, C. R., Proceedings of the 16th Plenary Meeting of COSPAR, COSPAR (Committee on Space Research), 1974, pp. 151 - 156 |
$ROCKETMEASUREMENTSOFMESOSPHERICANDLOWERTHERMOSPHERIC
$THEALADDINEXPERIMENTPART2
$IONCOMPOSITIONMEAURESUREMENTSINTHELOWER
$MESOSPHERICNITRICOXIDECONCENTRATIONSDURINGAPCA
$SATELLITEMEASUREMENTSOFNEUTRALCOMPOSITION
$NEGATIVEIONCOMPOSITION
$POSITIVEIONCOMPOSITION
| Measurements of atmospheric composition near 400 km, Philbrick, C. R., J. R. McIsaac, Proceedings of Space Research XII - Akademie-Verlag, COSPAR (Committee on Space Research), 1972, pp. 743 - 749 |
$NEUTRALCOMPOSITIONMEASUREMENTS
$RUBYASATHERMOLUMINESCENTRADIATIONDOSIMETER
$STUDIESOFCENTERSPRODUCED
| ALAPS: Advanced Lidar Atmospheric Profile Sensor, Lidar Applications for Atmospheric Characterization, Philbrick, C. R., Presentation for Lockheed Martin GES, Moorestown, NJ, U.S.A., The Pennsylvania State University, August 1966, pp. 1 - 8 |
| Effects of Gamma Irradiation on the Energy Output of Ruby Laser Crystals, Davis, W. R., A. C. Menius, Jr., M. K. Moss, C. R. Philbrick, Journal of Applied Physics, Vol. 36 No. 2, American Institute of Physics (AIP), 1965, pp. 670 - 672 |
| Gamma Irradiation of Ruby Laser Crystals, Philbrick, C. R., W. R. Davis, A. C. Menius, Jr., M. K. Moss, Journal of the Elisha Mitchell Scientific Society, Vol. 80 No. 2, Elisha Mitchell Scientific Society, 1964, p. 1 |
$EFFECTSOFGAMMAIRRADIATION
$NUCLEARENERGYDRIVENLASERSYSTEMS
 | Accelerometer |  | NACS Instrument |  | NACS Mass Spectrometer |
 | 2007 - Preliminary Observations of Resonance Enhanced Raman Scattering in Liquid Benzine |  | 2016 - Impact of Methane and Related Hydrocarbon Species on Climate Change | | |
