Publications
Publications
Garima Malhotra, Ridley, Aaron J. and Jones Jr., McArthur (2022), Impacts of Lower Thermospheric Atomic Oxygen and Dynamics on the Thermospheric Semiannual Oscillation Using GITM and WACCM-X, Journal of Geophysical Research: Space Physics, 127, Issue 2.
Xu Zhou, Yue, Xinan and Yu, You and Hu, Lianhuan (2022), Day-To-Day Variability of the MLT DE3 Using Joint Analysis on Observations From TIDI-TIMED and a Meteor Radar Meridian Chain, Journal of Geophysical Research: Atmospheres, 127, Issue 3.
Chris D Boone, Steffen, Johnathan and Crouse, Jeff and Bernath, Peter F (2021), Line-of-Sight Winds and Doppler Effect Smearing in ACE-FTS Solar Occultation Measurements, Atmosphere, 12, Issue 6.
Manbharat S. Dhadly, Englert, Christoph R. and Drob, Douglas P. and Emmert, John T. and Niciejewski, Rick and Zawdie, Kate A. (2021), Comparison of ICON/MIGHTI and TIMED/TIDI Neutral Wind Measurements in the Lower Thermosphere, Journal of Geophysical Research: Space Physics, 126, Issue 12.
Manfred Ern, Diallo, M. and Preusse, P. and Mlynczak, M. G. and Schwartz, M. J. and Wu, Q. and Riese, M. (2021), The semiannual oscillation (SAO) in the tropical middle atmosphere and its gravity wave driving in reanalyses and satellite observations, Atmospheric Chemistry and Physics, 21 Issue 18.
Sheng-Yang Gu, Teng, Chen-Ke-Min and Li, Na and Jia, Mingjiao and Li, Guozhu and Xie, Haiyong and Ding, Zonghua and Dou, Xiankang (2021), Multivariate Analysis on the Ionospheric Responses to Planetary Waves During the 2019 Antarctic SSW Event, Journal of Geophysical Research: Space Physics, 126, Issue 3.
Jiawei Kuai, Li, Qiaoling and Zhong, Jiahao and Zhou, Xu and Liu, Libo and Yoshikawa, Akimasa and Hu, Lianhuan and Xie, Haiyong and Huang, Chaoyan and Yu, Xumin and Wan, Xin and Cui, Jun (2021), The Ionosphere at Middle and Low Latitudes Under Geomagnetic Quiet Time of December 2019, Journal of Geophysical Research: Space Physics, 126, Issue 6.
Yi Liu, Zhou, Chen and Xu, Tong and Tang, Qiong and Deng, ZhongXin and Chen, GuanYi and Wang, ZhuangKai (2021), Review of ionospheric irregularities and ionospheric electrodynamic coupling in the middle latitude region, Earth and Planetary Physics, 5, Issue 5.
T. K. Ramkumar, Malik, Manzoor Ahmad and Ganaie, Bilal Ahmad and Bhat, Aashiq Hussain (2021), Airglow-imager based observation of possible influences of subtropical mesospheric gravity waves on F-region ionosphere over Jammu \& Kashmir, India, Scientific Reports, 11, Issue 1.
P. Baron, Ochiai, S., Dupuy, E., Larsson, R., Liu, H., Manago, N., Murtagh, D., Oyama, S., Sagawa, H., Saito, A., Sakazaki, T., Shiotani, M. and Suzuki, M. (2020), Potential for the measurement of mesosphere and lower thermosphere (MLT) wind, temperature, density and geomagnetic field with Superconducting Submillimeter-Wave Limb-Emission Sounder 2 (SMILES-2), Atmospheric Measurement Techniques, 13, 219-237.
L. R. de Araujo, Lima, L. M., Batista, P. P. and Jacobi, C. (2020), Behaviour of monthly tides from meteor radar winds at 22.7S during declining phases of 23 and 24 solar cycles, Journal of Atmospheric and Solar-Terrestrial Physics, 205.
J. Helmboldt, and Taylor, G. (2020), All-sky tracking of sporadic E field-aligned irregularities as a novel probe of thermospheric winds, Earth and Space Science, 7, 4.
K. K. Kumar, N/A (2020), Is mesospheric quasi biennial oscillation ephemeral?, Geophysical Research Letters, 48, Issue 2, e2020GL091033.
G. Kakoti, Kalita, B. R., Bhuyan, P. K., Baruah, S., and Wang, K. (2020), Longitudinal and interhemispheric ionosphere response to 2009 and 2013 SSW events in the African-European and Indian-East Asian sectors, Journal of Geophysical Research: Space Physics, 125, Issue 11.
E. Merzlyakov, Solovyova, T., Yudakov, A., Korotyshkin, D., Jacobi, Ch. and Lilienthal, F. (2020), Some features of the day-to-day MLT wind variability in winter 2017-2018 as seen with a European/Siberian meteor radar network, Advances in Space Research, 65, 1529-1543.
E. Merzlyakov, Solovyova, T., Yudakov, A., Korotyshkin, D., Jacobi, Ch. and Lilienthal, F. (2020), Amplitude modulation of the semidiurnal tide based on MLT wind measurements with a European/Siberian meteor radar network in October – December 2017, Advances in Space Research, 66, 631-645.
G. Manju, Aswathy, R. P. (2020), Ionospheric planetary wave activity and its role in equatorial spread F day-to-day variability, Journal of Geophysical Research: Space Physics, 125, Issue 9.
S. Sundararajan, N/A (2020), Equatorial upper mesospheric mean winds and tidal response to strong El Niño and La Niña, Journal of Atmospheric and Solar-Terrestrial Physics, 202.
W. E. van Caspel, Espy, P. J., Hibbins, R. E. and McCormak, J. P. (2020), Migrating tide climatologies measured by a high-latitude array of SuperDARN HF radars, Annales Geophysicae, 38, Issue 6.
H. Wang, Yan, H., Fu, L., Zhang, X. and Zong, W. (2020), Wind retrieval of Fabry-Perot interferometer in the middle and upper atmosphere using wavelength depth method based on satellite-based simulation and ground-based measurement, European Journal of Remote Sensing, 53, 1, 145-155.
K. Wu, He, W. Feng, Y., Xiong, Y. and Li, F. (2020), Effect of OH emission on the temperature and wind measurements derived from limb-viewing observations of the 1.27 µm O2 dayglow, Atmospheric Measurement Techniques, 13, 1817-1824.
K. Baumgarten, Stober, G. (2019), On the evaluation of the phase relation between temperature and wind tides based on ground-based measurements and reanalysis data in the middle atmosphere, Annales Geophysicae, 37, pg. 581-602.
P. Baron, Ochiai, S., Dupuy, E., Larsson, R., Liu, H., Manago, N., Murtagh, D., Oyama, S-i, Sagawa, H., Saito, A., Sakazaki, T., Shiotani, M. and Suzuki, M. (2019), Potential for the measurement of MLT wind, temperature, density and geomagnetic field with Superconducting Submillimeter-Wave Limb-Emission Sounder-2 (SMILES-2), Atmospheric Measurement Techniques: Discussions, .
G. Bharti, Sunil Krishna, M.V. and Singh, V. (2019), Radiative cooling due to NO at 5.3 um emission as observed by TIMED/SABER over Asian sector, Advances in Space Research, 64, pg. 1989-2001.
T. Chen, Wan, W., Xiong, J., Yu, Y., Ren, Z. and Yue, X. (2019), A statistical approach to quantify atmospheric contributions to the ITEC WN4 structure over low latitudes, Journal of Geophysical Research: Space Physics, 124 .
U. Das, Ward, W., Pan, C.J. and Kumar Das, S. (2019), Migrating and non-migrating tides observed in the stratosphere from FORMOSAT-3/COSMIC temperature retrievals, Annales Geophysicae: Discussions, .
D.C. Fritts, Iimura, H., Janches, D., Lieberman, R.S., Riggin, D.M., Mitchell, N.J., Vincent, R.A., Reid, I.M., Murphy, D.J., Tsutsumi, M., Kavanagh, A.J., Batista, P.P., and Hocking, W.K. (2019), Structure, variability, and mean-flow interactions of the January 2015 quasi-two-day wave at middle and high southern latitudes, Journal of Geophysical Research: Atmospheres, .
H.P. Gaikwad, Sharma, A.K., Gurav, O.B., Chavan, G.A., Nade, D.P., Patil, P.T., Nikte, S.S. and Naniwadekar, G.P. (2019), Seasonal, annual, and interannual variability in MLT quasi-two-day waves over the low-latitude region Kolhapur (16.8°N; 74.2°E), Advances in Space Research, 63, pg. 2100-2117.
R.R. Garcia, Yue, J. and Russell III, J.M. (2019), Middle atmosphere temperature trends in the twentieth and twenty-first centuries simulated with the Whole Atmosphere Community Climate Model (WACCM), Journal of Geophysical Research: Space Physics, 124.
R.E. Hibbins, Espy, P.J., Orsolini, Y.J., Limpasuvan, V. and Barnes, R.J. (2019), SuperDARN observations of semidiurnal tidal variability in the MLT and the response to sudden stratospheric warming events, Journal of Geophysical Research: Atmospheres, .
M. He, and Chau, J.L. (2019), Mesospheric semidiurnal tides and near-12 h waves through jointly analyzing observations of five specular meteor radars from three longitudinal sectors at boreal midlatitudes, Atmospheric Chemistry and Physics, 19, 5993-6006.
C. Jacobi, Arras, C. (2019), Tidal wind shear observed by meteor radar and comparison with sporadic E occurrence rates based on GPS radio occultation observations, Advances in Radio Science, 17, pg. 1-12 .
C. Jacobi, Arras, C., Geißer, C. and Lilienthal, F. (2019), Quarterdiurnal signature in sporadic E occurrence rates and comparison with neutral wind shear, Annales Geophysicae, 37, pg. 273-288.
D. Korotyshkin, Merzlyakov, E., Jacobi, C., Lilienthal, F., and Wu, Q. (2019), Longitudinal MLT wind structure at higher mid-latitudes as seen by meteor radars at central and Eastern Europe (13°E/49°E), Advances in Space Research, 63, pg. 3154-3166 .
W. Kuijun, Weiwei, H., Guangbao, Y., Yuanhui, X., and Faquan, L. (2019), Molecular filter infrared imaging technology and its application in photoelectric detection, Infrared and Laser Engineering, 48, pg. 0402003-1 to 0402003-9.
F. Lilienthal, and Jacobi, C. (2019), Nonlinear forcing mechanisms of the migrating terdiurnal solar tide and their impact on the zonal mean circulation, Annales Geophysicae, 37, 943-953.
N. Nischal, (2019), Nonmigrating Tidal Impact on the Energy Budget of the Lower Thermosphere, Doctoral dissertation, Clemson University, .
Y. Qin, Gu, S.-Y., Dou, X., Gong, Y., Chen, G., Zhang, S., and Wu, Q. (2019), Climatology of the quasi-6-day wave in the mesopause region and its modulations on total electron content during 2003-2017, Journal of Geophysical Research: Space Physics, 124, pg. 573-583.
L. Qiu, Zuo, X., Yu, T., Sun, Y.Y., and Qi, Y. (2019), Comparison of global morphologies of vertical ion convergence and sporadic E occurrence rate, Advances in Space Research, .
Y.-Y. Sun, Liu, H., Miyoshi, Y., Chang, L.C., and Liu, L. (2019), El Niño-Southern Oscillation effect on ionospheric tidal/SPW amplitude in 2007-2015 FORMOSAT-3/COSMIC observations, Earth, Planets and Space, 71:35.
C.J. Scott, Jones, S. and Barnard, L.A. (2019), Inferring thermospheric composition from ionogram profiles: a calibration with the TIMED spacecraft, Annales Geophysicae: Discussions, .
T.A. Siddiqui, Maute, A. and Pedatella, N.M. (2019), On the importance of interactive ozone chemistry in Earth-system models for studying Mesophere-Lower Thermosphere tidal changes during sudden stratospheric warmings, Journal of Geophysical Research: Space Physics, 124, 10690-10707.
A. Vitharana, Zhu, X., Du, J., Oberheide, J. and Ward, W.E. (2019), Statistical modeling of tidal weather in the mesosphere and lower thermosphere, Journal of Geophysical Research: Atmospheres, 124, pg. 9011-9027.
K. Wu, He, W., Feng, Y., Xiong, Y. and Li, F. (2019), Effect of OH radiance on the temperature and wind measurements derived from limb viewing observations of the 1.27 µm O2dayglow, Atmospheric Measurement Techniques: Discussions, .
X. Yue, Friedman, J.S., Zhou, Q., Wu, X. and Lautenbach, J. (2019), Long-term lidar observations of the gravity wave activity near the mesopause at Arecibo, Atmospheric Chemistry and Physics, 19, pg. 3207-3221.
K. Baumgarten , Gerding, M., Baumgarten, G. and Lübken ,F.-J. (2018), Temporal variability of tidal and gravity waves during a record long 10-day continuous lidar sounding, Atmospheric Chemistry and Physics, 18, pg. 371-384 .
M.S. Dhadly, Emmert, J.T., Drob, D.P., McCormack,J.P, and Niciejewski, R.J. (2018), Short-term and interannual variations of migrating diurnal and semidiurnal tides in the mesosphere and lower thermosphere, Journal of Geophysical Research, Space Physics, 123, pg. 7106-7123 .
J.M. Forbes, Zhang, X., Maute, A. and Hagan, M.E. (2018), Zonally symmetric oscillations of the thermosphere at planetary wave periods, Journal of Geophysical Research, Space Physics, 123, pg. 4110-4128 .
S.-Y. Gu, Ruan, H., Yang, C.-Y., Gan, Q., Dou, X. and Wang, N. (2018), The morphology of the 6-day wave in both the neutral atmosphere and F region ionosphere under solar minimum conditions, Journal of Geophysical Research, Space Physics, 123, pg. 4232-4240.
S.-Y. Gu, Liu, H.-L., Dou, X. and Jia, M. (2018), Ionospheric variability due to tides and quasi-two day wave interactions, Journal of Geophysical Research, Space Physics, 123 pg. 1554-1565 .
Q. Gan, Oberheide, J., and Pedatella, N.M. (2018), Sources, sinks, and propagation characteristics of the quasi 6-day wave and its impact on the residual mean circulation, Journal of Geophysical Research, Atmospheres, 123, pg. 9152-9170 .
M. Jones, Jr., Drob, D.P., Siskind, D.E., McCormack, J.P., Maute, A., McDonald, S.E., and Dymond, K.F. (2018), Evaluating different techniques for constraining lower atmospheric variability in an upper atmosphere general circulation model: a case study during the 2010 sudden stratospheric warming, Journal of Advances in Modeling Earth Systems, 10, pg. 3076-3102.
K.K. Kumar, Subrahmanyam, K.V., Mathew, S.S., Koushik, N. and Ramkumar, G. (2018), Simultaneous observations of the quasi 2-day wave climatology over the low and equatorial latitudes in the mesosphere lower thermosphere, Climate Dynamics, 51, pg. 221-233.
G.K. Kumar, Tyssoy, H.N. and Williams, B.P. (2018), A preliminary comparison of Na lidar and meteor radar zonal winds during geomagnetic quiet and disturbed conditions, Journal of Atmospheric and Solar-Terrestrial Physics, 168, pg. 70-79.
Y. Liu, Zhou, C., Tang, Q., Li, Z., Song, Y., Qing, H., Ni, B., and Zhao, Z. (2018), The seasonal distribution of sporadic E layers observed from radio occultation measurements and its relation with wind shear measured by TIMED/TIDI, Advances in Space Research, 62, pg. 426-439.
J. Liu, Liu, H., Wang, W., Burns, A.G., Wu, Q., Gan, Q., Solomon, S.C., Marsh, D.R., Qian, L., Lu, G., Pedatella, N.M., McInerney, J.M., Russell III, J.M. and Schreiner, W.S. (2018), First results from the ionospheric extension of WACCM-X during the deep solar minimum year of 2008, Journal of Geophysical Research, Space Physics, 123, pg. 1534-1553 .
H.-L. Liu, Bardeen, C.G., Foster, B.T., Lauritzen, P., Liu, J., Lu, G., Marsh, D.R., Maute, A., McInerney, J.M., Pedatella, N.M., Qian, L., Richmond, A.D., Roble, R.G., Solomon, S.C., Vitt, F.M and Wang, W. (2018), Development and validation of the Whole Atmosphere Community Climate Model with Thermosphere and Ionosphere Extension (WACCM-X 2.0), Journal of Advances in Modeling Earth Systems, 10, pg. 381-402 .
F. Lilienthal, Jacobi, C. and Geißler, C. (2018), Forcing mechanisms of the terdiurnal tide, Atmospheric Chemistry and Physics, .
A.N. Onohara, Batista, I.S. and Batista, P.P. (2018), Wavenumber-4 structures observed in the low-latitude ionosphere during low and high solar activity periods using FORMOSAT/COSMIC observations, Annales Geophysicae, 36, pg. 459-471 .
D. Singh, Gurubaran, S. and He, M. (2018), Evidence for the influence of DE3 tide on the occurrence of equatorial counterelectrojet, Geophysical Research Letters, 45, pg. 2145-2150.
Y.-Y. Sun, Liu, H., Miyoshi, Y., Liu, L. and Chang, L.C. (2018), El Niño -Southern Oscillation effect on quasi-biennial oscillations of temperature diurnal tides in the mesosphere and lower thermosphere, Earth, Planets and Space, 70:85 .
K. Sato, Yasui, R., and Miyoshi, Y. (2018), The momentum budget in the stratosphere, mesosphere, and lower thermosphere: Part I: Contributions of different wave types and in situ generation of Rossby waves, Journal of the Atmospheric Sciences, 75, pg. 3613-3633 .
J. Virgili-Llop, Roberts, P.C.E. and Hao, Z. (2018), Using the attitude response of aerostable spacecraft to measure thermosphric wind, CEAS Space Journal, 10, pg. 101-113 .
K. Wu, Fu, D., Feng, Y., Li, J., Hao, X. and Li, F. (2018), Simulation and application of the emission line O19P18 of O2(a singlet delta g) dayglow near 1.27 microns for wind observations from limb-viewing satellites, Optics Express, 26, pg. 16984-16999 .
J.C. Wang, Tsai-Lin, R., Chang, L.C., Wu, Q., Lin, C.C.H. and Yue, J. (2018), Modeling study of the ionospheric responses to the quasi-biennial oscillations of the sun and stratosphere, Journal of Atmospheric and Solar-Terrestrial Physics, 171, pg. 119-130 .
X. Zhou, Wan, W., Yu, Y., Ning, B., Hu, L. and Yue, X. (2018), New approach to estimate tidal climatology from ground- and space-based observations, Journal of Geophysical Research, Space Physics, 123.
A. Zarboo, Bender, S., Burrows, J.P., Orphal, J. and Sinnhuber, M. (2018), Retrieval of O2(1-sigma) and O2(1-delta) volume emission rates in the mesosphere and lower thermosphere using SCIAMACHY MLT limb scans, Atmospheric Measurement Techniques, 11, pg. 473-487 .
K. Zhang, Wang, W., Wang, H., Dang, T., Liu, J., and Wu, Q. (2018), The longitudinal variations of upper thermospheric zonal winds observed by the CHAMP satellite at low and midlatitudes, Journal of Geophysical Research: Space Physics, 123, pg. 9652-9668.
L. R. Araujo, Lima, L.M., Jacobi, C., & Batista, P.P. (2017), Quasi-biennial oscillation signatures in the diurnal tidal winds over Cachoeira Paulista, Brazil, Journal of Atmospheric and Solar-Terrestrial Physics, 155, pg. 71-78.
R.M. Agner, (2017), On the interaction between gravity waves and atmospheric thermal tides, Doctoral dissertation, Embry-Riddle Aeronautical University, .
M. Butler, N/A (2017), The TIMED spacecraft mission orbital performance fifteen years in LEO, 15th International Energy Conversion Engineering Conference, AIAA Propulsion and Energy Forum, (AIAA 2017-4871), .
E.A. Everett, (2017), Design and characterization of a time-of-flight mass spectrometer for composition measurements in the upper atmosphere, Doctoral dissertation, Utah State University, .
J. Hildebrand, Baumgarten, G., Fiedler, J., and Lübken, F.-J. (2017), Winds and temperatures of the Arctic middle atmosphere during January measured by Doppler lidar, Atmospheric Chemistry and Physics, 17, pg. 13345-13359.
H. Liu, Sun, Y.-Y., Miyoshi, Y., & Jin, H. (2017), ENSO effects on MLT diurnal tides: A 21 year reanalysis data-driven GAIA model simulation, Journal of Geophysical Research: Space Physics, 122, pg. 5539-5549.
Z. Ma, Gong, Y., Zhang, S., Zhou, Q., Huang, C., Huang, K., Yu, Y., Li, G., Ning, B. and Li, C. (2017), Responses of quasi 2 day waves in the MLT region to the 2013 SSW revealed by a meteor radar chain, Geophysical Research Letters, 44.
D. Singh, and Gurubaran, S. (2017), Variability of diurnal tide in the MLT region over Tirunelveli (8.7N), India: Consistency between ground- and space-based observations, Journal of Geophysical Research: Atmospheres, 122, pg. 2696-2713.
J.S. Shim, Rastätter, L., Kuznetsova, M., Bilitza, D., Codrescu, M., Coster, A.J., Emery, B.A., Fedrizzi, M., Förster, M., Fuller-Rowell, T.J., Gardner, L.C., Goncharenko, L., Huba, J., McDonald, S.E., Mannucci, A.J., Namgaladze, A.A., Pi, X., Prokhorov, B.E., Ridley, A.J., Scherliess, L., Schunk, R.W., Sojka, J.J, and Zhu, L. (2017), CEDAR-GEM challenge for systematic assessment of ionosphere/thermosphere models in predicting TEC during the 2006 December storm event, Space Weather, 15, pg. 1238-1256 .
Y. Tang, Yang, R., Gao, H., Zhai, F., Yu, Y., & Cui, J. (2017), Improving the atmospheric wind speed measured accuracy by the ground-based airglow imaging interferometer, Proceedings of SPIE, 10256, pg. 102563C.
J. Virgili-Llop, Roberts, P.C.E, and Hao, Z. (2017), Using the attitude response of aerostable spacecraft to measure thermospheric wind, CEAS Space Journal , online first, pg. 1-13.
H. Wang, and Zhang, K. (2017), Longitudinal structure in electron density at mid-latitudes: upward-propagating tidal effects, Earth, Planets and Space, 69:11.
J.C. Wang, Chang, L.C., Yue, J., Wang, W., and Siskind, D.E. (2017), The quasi 2 day wave response in TIME-GCM nudged with NOGAPS-ALPHA, Journal of Geophysical Research: Space Physics, 122.
J.C. Wang, Tsai-Lin, R., Chang, L.C., Wu, Q., Lin, C.C.H and Yue, J. (2017), Modeling study of the ionospheric responses to the quasi-biennial oscillations of the sun and stratosphere, Journal of Atmospheric and Solar-Terrestrial Physics, .
H.M. Wang, Wang, C., Wang, Y.M., Zhang, X.X., Huang, C., and Liang, S.L. (2017), Retrieval of middle and upper atmospheric wind based on non-full circularfringe recorded by Fabry-Perot interferometer, Science China Earth Sciences, 47, pg. 985-991 .
C.-Y. Wang, Su, C.-L., Wu, K.-H., and Chu, Y.-H. (2017), Cross spectral analyisis of CODAR-SeaSonde echoes from sea surface and ionosphere at Taiwan, International Journal of Antennas and Propagation, 2017, Article ID 1756761 .
Q. Wu, Schreiner, W.S., Ho, S.-P., Liu, H.-L., and Qian, L. (2017), Observations and simulations of eddy diffusion and tidal effects on the semiannual oscillation in the ionosphere, Journal of Geophysical Research, Space Physics, 122, pg. 10502-10510 .
Y. Yu, Wan, W., Reid, I.M., Chen, J., Vincent, R.A., Ning, B., Murphy, D.J., Yang, G., & Xue, X. (2017), Global tidal mapping from observations of a radar campaign, Advances in Space Research , 60, pg. 130-143.
E. Yigit, and Medvedev, A.S. (2017), Influence of parameterized small-scale gravity waves on the migrating diurnal tide in Earth’s thermospehre, Journal of Geophysical Research: Space Physics, 122, pg. 4846-4864.
F. Yutao, Juan, L., Zhengliang, Z., Xiaobin, Y., Tao, Y., Jianguo, F., Kuijun, W., Xiongbo, H., Di, F., and Shuang, W. (2017), Development of interferometric spectroscopy for atmosphere wind observations based on satellite, [J]. Aerospace Shanghai, 2017-03, pg. 14-26.
Y. Zhang, Sheng, Z., Shi, H., Zhou, S., Shi, W., Du, H., & Fan, Z. (2017), Properites of the long-term oscillations in the middle atmosphere based on observations from TIMED/SABER instrument and FPI over Kelan, Atmosphere , 8, pg. 7.
M A. Abdu, N/A (2016), Electrodynamics of ionospheric weather over low latitudes, Geoscience Letters, 3.
P.S. Blom, and Marcillo, O.E. (2016), An optimal parametrization framework for infrasonic tomography of the stratospheric winds using non-local sources, Geophysical Journal International , 208, pg. 1557-1566 .
S.-Y. Gu, Liu, H.L., Dou, X., & Li, T. (2016), Influence of the sudden stratospheric warming on quasi-2-day waves, Atmospheric Chemistry and Physics, 16, pg. 4885-4896.
S.-Y. Gu, Liu, H.-L.., Pedatella, N.M. Dou, X., Li, T., & Chen, T. (2016), The quasi 2 day wave activities during 2007 austral summer period as revealed by Whole Atmosphere Community Climate Model, Journal of Geophysical Research: Space Physics, 121, pg. 2743-2754.
X. Liu, Yue, J., Xu, J. Yuan, W., Russell III, J.M., Hervig, M.E., & Nakamura, T. (2016), Persistent longitudinal variations in 8 years of CIPS/AIM polar mesospheric clouds, Journal of Geophysical Research: Atmospheres, 121, pg. 8390-8409.
H.-L. Liu, N/A (2016), Variability and predictability of the space environment as related to lower atmosphere forcing, Space Weather, 14, 634-658.
D. A. Newnham, Ford, G.P., Moffat-Griffin, T. & Pumphrey, H.C. (2016), Simulation study for measurement of horizontal wind profiles in the polar stratosphere and mesosphere using ground-based observations of ozone and carbon monoxide lines in the 230-250 GHz region, Atmospheric Measurement Techniques, 9, pg. 3309-3323.
R. Rufenacht, Hocke, K., & Kampfer, N. (2016), First continuous ground-based observations of long period oscillations in the vertically resolved wind field of the stratosphere and mesosphere: Supplement, Atmospheric Chemistry and Physics, 16, pg. 4915-4925.
C.-Y. She, Krueger, D. A., Yuan, T., & Oberheide, J. (2016), On the polarization relations of diurnal and semidiurnal tide in the mesopause region, Journal of Atmospheric and Solar-Terrestrial Physics, 142, pg. 60-71.
S. Sharma, Chandra, H., Beig, G., Kumar, P., & Vaishnav, R. (2016), Investigations of mesospheric temperature inversions over sub-tropical location using lidar and satellites measurements, Journal of Atmospheric and Solar-Terrestrial Physics, 138-139, pg. 54-65.
R. P. Singh, and Pallamraju, D. (2016), Effect of cyclone Nilofar on mesospheric wave dynamics as inferred from optical nightglow observations from Mount Abu, India, Journal of Geophysical Research, 121, pg. 5856-5867.
D.L. Wu, Yee, J.-H., Schlecht, E., Mehdi, I., Siles, J., & Drouin, B.J. (2016), THz limb sounder (TLS) for lower thermospheric wind, oxygen density, and temperature, Journal of Geophysical Research: Space Physics, 121, pg. 7301-7315.
H. Wang, Wang, Y., Fu, J. & Zhang, Z. (2016), A new ground-based Fabry-Perot interferometer for measurement of the thermospheric wind, Chin. J. Space Sci., 36(3), pg. 352-357.
C. Wang, N/A (2016), Main science results from Chinese Meridian Project (2014-2015), Chin. J. Space Sci., 36(5), 620-625.
Q. Wu, Maute, A., Yudin, V., Goncharenko, L., Noto, J., Kerr, R., & Jacobi, C. (2016), Observations and simulations of midlatitude ionospheric and thermospheric response to the January 2013 stratospheric sudden warming event, Journal of Geophysical Research: Atmospheres, 121, 8995-9011.
E. Yigit, Knizova, P. K., Georgieva, K., & Ward, W. (2016), A review of vertical coupling in the Atmosphere-Ionosphere system: Effects of waves, sudden stratospheric warmings, space weather, and of solar activity, Journal of Atmospheric and Solar-Terrestrial Physics, 141, pg. 1-12.
J. Yue, Wang, W., Ruan, H., Chang, L.C., & Lei, J. (2016), Impact of the interaction between the quasi 2-day wave and tides on the ionosphere and thermosphere, Journal of Geophysical Research: Space Physics, 121, pg. 3555-3563.
Y.-M. Cho, Shepherd, G. (2015), Resolving daily wave 4 non-migrating tidal winds at equatorial and mid latitudes with WINDII: DE3 and SE2, Journal of Geophysical Research, 120, pg. 20053-10068.
D. P. Drob, Emmert, J. T., Meriwether, J. W., Makela, J. J., Doombos, E. Conde, M., Hernandez, G., Noto, J., Zawdie, K. A., McDonald, S. E., Huba, J. D., & Klenzing, J. H. (2015), An update to the Horizontal Wind Model (HWM): the quiet time thermosphere, Earth and Space Science, vol 2, issue 7, 301-319.
J.T. Emmert, (2015), Thermospheric mass density: A review, Advances in Space Research, vol. 56, p. 773-824 .
S. Gu, Liu, H. L., Li, T., Dou, X., Wu, Q., & Russell, J. (2015), Evidence of nonlinear interaction between quasi-2 day wave and quasi-stationary wave, Journal of Geophysical Research, 120, pg. 1256-63.
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M.H. Butler , Dakermanji, G., Persons, D.F., Vernon, S.R., and Williams, B.D. (1999), Design and development of the TIMED spacecraft solar array, SAE Technical Papers, 34th Intersociety Energy Conversion Engineering Conference, 01-2633, pg. 1-6.
T.L. Killeen, W. R. Skinner, R. M. Johnson, C. J. Edmonson, Q. Wu, R. J. Niciejewski, H. J. Grassl, D. A. Gell, P. E. Hansen, J. D. Harvey, J. F. Kafkalidis (1999), TIMED Doppler Interferometer (TIDI), Proceedings of SPIE, vol. 3756, p. 289-301, doi: 10.1117/12.366383.
B.D. Williams , N/A (1999), The TIMED spacecraft: a thermal design perspective, SAE Technical Papers, 29th International Conference on Environmental Systems, 01-2133, pg. 1-13.
J.-H. Yee, Cameron, G.E., and Kusnierkiewicz, D.Y. (1999), Overview of TIMED, Proc. SPIE, Optical Spectroscopic Techniques and Instrumentation for Atmospheric and Space Research III, 3756, pg. 244-254.
X. Zhu, Yee, J.-H., Strobel, D.F.,Wang, X., and Greenwald, R.A. (1999), On the numerical modelling of middle atmosphere tides, Quarterly Journal of the Royal Meteorological Society, 125, pg. 1825-1857.
D.A. Ortland, Hays, P.B., and Skinner, W.R. (1998), Remote sensing of mesospheric temperature and O2(1S) band volume emission rates with the high-resolution Doppler imager, Journal of Geophysical Research: Atmospheres, 103, pg. 1821-1835.
G. Dakermanji, Butler, M., Carlsson, P.U., and Temkin, D. (1997), The thermosphere, ionosphere, mesosphere energetics and dynamics (TIMED) spacecraft power system, IECEC-97 Proceedings of the Thirty-Second Intersociety Energy Conversion Engineering Conference, 1, pg. 544-549.
J.M. Forbes, Kilpatrick, M., Fritts, D., Manson, A.H., and Vincent, R.A (1997), Zonal mean and tidal dynamics from space: an empirical examination of aliasing and sampling issues, Annales Geophysicae, 15, pg. 1158-1164.
D.Y. Kusnierkiewicz, N/A (1997), A description of the TIMED spacecraft, AIP Conference Proceedings, 387, pg. 115-121.
Conference Posters/Presentations
Q. Gan, Oberheide, J. and Pedatella, N.M. (2018), Revisting the quasi 6-day wave dynamics in the mesosphere and lower thermosphere by using WACCM+DART data assimilation system, AGU Fall Meeting, Washington, DC, 10-14 December 2018, abstract SA33B-3482.
Y. Tian, Lyu, D. (2018), Beijing MST radar detection of the lower, middle, upper atmosphere and preliminary results on horizontal wind vertical distribution and gravity waves, AGU Fall Meeting, Washington, DC, 10-14 December 2018, abstract A31G-2905.
Q. Gan, Oberheide, J. (2017), Thermospheric Extension of the Quasi 6-day Wave Observed by the TIMED Satellite, AGU Fall Meeting, New Orleans, 11-15 December 2017, abstract SA41A-2611.
M. Mlynczak, Russell, J.M., Hunt, L.A., Christensen, A.B., Paxton, L.J., Woods, T.N., Niciejewski, R., and Yee, J.-H (2016), TIME after TIMED – A perspective on Thermosphere-Ionosphere Mesosphere science and future observational needs after the TIMED mission epoch, AGU Fall Meeting, San Francisco, 12-16 December 2016, abstract SA21C-01.
R. Niciejewski, Wu, Q, and Ortland, D.A. (2016), What impact have TIMED/TIDI neutral wind measurements of the ITM had on our knowledge of the upper atmosphere ?, AGU Fall Meeting, San Francisco, 12-16 December 2016, abstract SA21C-05.
Q. Wu, N/A (2016), TIMED TIDI observation of migrating and nonmigrating tides, AGU Fall Meeting, San Francisco, 12-16 December 2016, abstract SA51A-2401.
Y. Yu, Wan, W. (2016), Seasonal variations of MLT tides revealed by a meteor radar chain based on Hough mode decomposition, AGU Fall Meeting, San Francisco, 12-16 December 2016, abstract SA51A-2409.
R. Niciejewski, Wu, Q. (2016), Correlative observations: ICON/MIGHTI with TIMED/TIDI, GEO ICON-GOLD Workshop, Observation and analysis opportunities collaborating with the ICON and GOLD missions, Boulder, CO, September 28, 2016..
Brittany Marriott, Yuan, Tao (Titus) (2015), Neutral Temperature and Horizontal Wind in the Thermosphere, CEDAR 2015.
R. Niciejewski, Wu, Q. (2015), TIDI OI (6300A) observations, ICON Working Group Meeting, Boulder, CO, October 28, 2015..
Gan Quan, Yue, Jia, Chang, Loren C., Wang, Wenbin, Zhang, Shaodong, & Du, Jian (2015), Observations of thermosphere and ionosphere changes due to the dissipative 6.5-day wave in the lower thermosphere, CEDAR 2015.
Z. Ren, Wan, W., Xiong, J., and Liu, L. (2015), Influence of atmospheric tides on ionospheric equinoctial asymmetry, AOGS, Singapore, August 2, 2015..
Jack C. Wang, Chang, Loren C. & Wu, Qian (2015), Tidal variability due to the quasi-biennial oscillation and ionospheric responses, CEDAR 2015.
Yu You, Wan, Weixing (2015), Seasonal variations of MLT tides revealed by a meteor radar chain based on HMD analysis, CEDAR 2015.
Z. Chen, Wu, Q. (2014), Momentum flux of the migrating diurnal tide in 2002-2012 as seen in the SABER/TIDI wind measurements. , 40th COSPAR Scientific Assembly. Held 2-10 August 2014, in Moscow, Russia, Abstract C2. 2-33-14. (Vol. 40, p. 516)..
L. Chang, Wang, W., Wu, Q., Yue, J., and Meier, R. (2014), Quasi-two day waves related variability in the background dynamics and composition of the mesosphere/thermosphere and their ionospheric effects, AOGS, Sapporo, July 29, 2014..
R. Elhawary, Forbes, J., and Wu, Q. (2014), Ground magnetic manifestations of atmosphere-ionosphere coupling by planetary waves, AGU Fall Meeting, San Francisco, 15-19 December 2014, abstract SA51B-4093.
R. Elhawary, Forbes, J. M., and Wu, Q. (2014), Mesosphere and lower thermosphere other tidal, planetary waves during sudden stratosphere warmings, CEDAR workshop, Seattle, June 22, 2014..
F. Lasker, Duggirala, P. R. (2014), Thermospheric meridional circulation during sudden stratospheric warming events, AGU Fall Meeting, San Francisco, 15-19 December 2014, abstract SA31A-4078.
J. Oberheide, Chang, L., Nischal, N., and Wu, Q. (2014), Tidal response of the ionosphere/thermosphere system to ENSO and QBO, AGU Fall Meeting, San Francisco, 15-19 December 2014, abstract SA51B-4089.
J. C. Wang, Chang, L. C., Wu, Q., and Lin, C. C. H. (2014), Tidal variability due to the quasi-biennial oscillation and ionospheric responses, CEDAR workshop, Seattle, June 22, 2014..
V. Yudin, England, S., Matsuo, T., Wang, H., Immel, T., Eastes, R., Akmaev, R., Goncharenko, L., Fuller-Rowell, T., Liu, H., Solomon, S., and Wu, Q. (2014), Supporting ITM missions by observing system simulation experiments: initial design, challenges and perspectives, AGU Fall Meeting, San Francisco, 15-19 December 2014, abstract SA41B-4066.
B. A. Emery, Bhaneja, P., Bilitza, D., Chau, J., Coley, W. R., Drob, D., Fang, T.-W., Fejer, B., Hausler, K., Jones Jr., M., Klenzing, J., Luhr, H., Maute, A., Retterer, J., Richmond, A. D., Roddy, P., Stoneback, R., Su, Y.-J., Wu, Q., and Zhang, X. (2013), Matching CHAMP and C/NOFS Climatology at Low Latitudes with the ionosphere-thermosphere TIEGCM and the plasmasphere GIP Models, AGU Meeting of the Americas, Cancun, May 2013.
J. Oberheide, (2013), Response of upward propagating tides to varying solar activity levels (invited), AGU Fall Meeting, San Francisco, 9-13 December 2013, abstract SA32A-02.
Q. Wu, Nozawa, S. (2013), Mesospheric and thermospheric observations of the Jan 2010 stratospheric warming event, International CAWSES-II symposium, Nagoya, Japan, Nov 2013.
Q. Wu, Nozawa, S. (2013), Mesospheric and Thermospheric Observations of the January 2010 Stratospheric Warming Event, AGU Fall Meeting, San Francisco, 9-13 December 2013, abstract SA23A-2040.
Y. Yamazaki, Richmond, A. D., Maute, A., and Wu, Q. (2013), Geomagnetic solar-quiet (Sq) variation: NCAR model vs. Ground magnetometer observations for Nov 2009, IAGA, Merida, Mexico, August, 2013.
A. V. Yudin, England, S., Liu, H., Solomon, S. C., Immel, T. J., Maute, A. I., Burns, A. G., Foster, B., Wu, Q., and Goncharenko, L. P. (2013), Supporting new mission by observing simulation experiments in WACCM-X/GEOS-5 and TIME-GCM: initial design, challenges and perspectives, AGU Fall Meeting, San Francisco, 9-13 December 2013, abstract SA43B-2148.
R. S. Lieberman, D. M. Riggin, D. A. Ortland and D. E. Siskind (2012), Tidal variability in NOGAPS-ALPHA, June 11-13 2012, SPARC Data assimilation workshop, Socorro, New Mexico.
Jia Yue, Qian Wu, Jiyao Xu, Hanli Liu, Maura E Hagan, Astrid I Maute, Tao Yuan, Chiao She, James M Russell (2011), Climatology of terdiurnal tide in the mesosphere and lower thermosphere from TIMED SABER/TIDI, ground-based sodium lidar and NCAR TIME-GCM model, Fall 2011 AGU.
W. Skinner, R. Niciejewski, A. Marshall, and M. Cooper (2011), Two decades of MLT winds as measured by UARS/HRDI and TIMED/TIDI, 2011 Fall Meeting, AGU.
M. Fedrizzi, T. Fuller-Rowell, M. Codrescu, K. Shiokawa, M. Conde, J. Emmert, J. Meriwether, R. Niciejewski, and Q. Wu (2011), Physical modeling of neutral winds in the thermosphere: initial results, Fall 2011 AGU.
R. Niciejewski, W. Skinner, A. Marshall, and M. Cooper (2011), Resolving dynamics structure in the MLT: Correlative measurements with TIDI and HRDI, 2011 Fall AGU Meeting.
R. S. Lieberman, D. M. Riggin and D. A. Ortland (2011), Observations of planetary wave winds and temperatures in the winter mesosphere (invited), IUGG 2011 Melbourne, AU.
R. Niciejewski, R. R. Meier, M. H. Stevens, W. Skinner, M. Cooper, A. Marshall, D. Ortland, and Q. Wu (2010), Correlative observations with space-borne direct Doppler wind instruments of the rapid transport of shuttle exhaust plumes, Fall 2010 AGU.
R. Niciejewski, W. Skinner, M. Cooper, A. Marshall, D. Ortland, and Q. Wu (2010), Low latitude thermospheric winds observed by the TIMED Doppler Interferometer (TIDI) during the C/NOFS era, Fall 2010 AGU.
Q. Wu, D. Ortland, R. Niciejewski, and W. Skinner (2010), Stratospheric effects on the lower thermosphere semidiurnal tides (invited), 2010 Fall Meeting.
H. Nair, J. Yee; M. G. Mlynczak; J. C. Mast; J. Russell (2010), Global Mesospheric Atomic Oxygen Distribution Deduced From HRDI/UARS, SABER/TIMED and TIDI/TIMED Airglow Measurements, Fall 2010 AGU.
D. M. Riggin, D. A. Ortland; R. S. Lieberman (2010), Diagnosing Interactions of the Diurnal Tide with the MLT Background Atmosphere Using Data from the TIDI and SABER Instruments, Fall 2010 AGU.
Ruth Lieberman, N/A (2010), Overview of middle atmosphere tides, School and Workshop on the Dynamics and Chemistry of the Upper Atmosphere, Pan American Advanced Studies Institute, October 4-9 2010, San Juan, Argentina.
H. Nair, J. Yee, J. M. Russell, M. G. Mlynczak, J. C. Mast, W. R. Skinner (2009), Retrievals of Mesospheric Atomic Oxygen From SABER Measurements, Eos Trans. AGU, 90, (52), Fall Meeting Suppl., Abstract SA51A-1206.
W. R. Skinner, Niciejewski, R.; Wu, Q.; Ortland, D. A.; Marshall, A.; Cooper, M. (2009), Lower thermosphere molecular oxygen derived from the volume emission rate of the Atmospheric band, Eos Trans. AGU 90, (52), Fall Suppl., Abstract #SA51A-1205.
R Niciejewski, W Skinner, M Cooper, A Marshall, Q Wu, T Killeen, D Ortland (2009), First Results From OI (6300A) Fringe Measurements Using the TIMED Doppler Interferometer (TIDI), Eos Trans. AGU, 90(22), Jt. Assem. Suppl., Abstract SA21B-03.
W. R. Skinner, Niciejewski, R.; Wu, Q.; Ortland, D.; Cooper, M.; Marshall, A. R. (2009), Multiple Year Variations of the Mesosphere Lower Thermosphere Wind Field and Comparison with Empirical Models, Eos Trans. AGU, 90(22), Jt. Assem. Suppl., Abstract SA21B-02.
W.R. Skinner, Niciejewski, R.; Cooper, M. L.; Marshall, A. R.; Ortland, D.; Drob, D. P.; Wu, Q. (2008), Comparision of TIDI Wind Observations and the HWM07 Model, Fall AGU 2008, abstract #SA21B-1536.
J. Du, W. E. Ward, J. Oberheide, T. Nakamura, T. Tsuda (2008), Atmospheric tides from the Extended Canadian Middle Atmosphere Model (CMAM) and comparisons with TIMED Doppler Interferometer (TIDI) and meteor radar observations, 37th COSPAR Scientific Assembly. Held 13-20 July 2008, in Montréal, Canada., p.756.
J. Chung, Wu, Q.; Solomon, S.; Killeen, T.; Ortland, D.; Niciejewski, R.; Skinner, W. (2007), Measurements of the O2(0-0) Atmospheric band nightglow emission by TIMED Doppler Interferometer (TIDI) between 2003-2005, Fall AGU 2007, abstract #SA31A-02.
T.L. Killeen, Wu, Q.; Solomon, S. C.; Ortland, D. A.; Skinner, W. R.; Niciejewski, R. J. (2007), Long term variability in migrating diurnal tide observed by the TIMED Doppler Interferometer (TIDI), Fall AGU 2007, abstract #SA32A-02.
J. U. Kozyra,, Crowley, G.; Doe, R. A.; Mlynczak, M. G.; Paxton, L. J.; Skinner, W. R.; Solomon, S. C.; Talaat, E.; Woods, T. N.; Wu, Q.; Yee, J. (2007), Overview of TIMED/CEDAR observations showing the MLTI system response to changing drivers from solar maximum to solar minimum, Fall AGU 2007, abstract #SA33C-01.
W.R. Skinner, Niciejewski, R. J.; Cooper, M.; Marshall, A. (2007), Intra-Annual Variability of the Mesosphere Wind Field as Observed by TIDI, Fall AGU 2007, abstract #SA31A-06.
D. Smith, * Yee, J, Zhu, X, Mlynczak, M, Russell, J, Skinner, W (2007), The Terrestrial O2(1delta) 1.27 micron Airglow Emissions, Fall AGU 2007, abstract #SA41A-0295.
Q. Wu, Killeen, T. L.; Solomon, S. C.; Ortland, D. A.; Skinner, W. R.; Niciejewski, R. J. (2007), Nonmigrating diurnal tide long term variability observed by the TIMED Doppler Interferometer (TIDI) , Fall AGU 2007, abstract #SA32A-03.
T. Yee, Talaat, E.; Zhu, X.; Russell, J.; Mlynczak, M.; Skinner, W.; Paxton, L. (2007), The Variabilities of the Mesosphere and Lower Thermosphere as observed by TIMED, AGU, 88(52), Fall Meet. Suppl., Abstract SA31A-03.
Q. Wu, T. L. Killeen, S. C. Solomon, Jiyao, Xu, D. A. Ortland, W. R. Skinner, R. J. Niciejewski (2007), MLT Diurnal tide long term variations, The 12th Chinese Solar-Terrestrial Space Physics Symposium, Sanya, China, 9-15, November 2007.
H.-L. Liu, D. Marsh, Q. Wu, Jiyao Xu (2007), Wind balance in the mesosphere and lower thermosphere, CAWSES Meeting, Japan, October 2007.
D. Ortland, N/A (2007), Tide and amplitude determined from UARS and TIMED satellite observations, CAWSES Meeting, 2007.
R. J. Niciejewski, W. Skinner, D. Gell, M. Cooper, A. Marsh, T. Killeen, Q. Wu, S. Solomon, D. Ortland, D. Drob, J. Emmert, G. Shepherd, S. Zhang, and B. Solheim (2007), Long Term Observations of the low Latitude (1,1) Diurnal Migrating Tide From WINDII, HRDI and TIDI, Fall AGU 2007, abstract #SA43A-07.
D. A. Ortland, N/A (2007), A Data assimilation model for determining the mean state and migrating tide structures in the mesosphere and lower thermosphere using satellite measurements of wind and temperature, Fall AGU 2007, abstract #SA41A-02.
D. Ortland, N/A (2007), Assimilation of TIMED wind and temperature measurements into a tide-mean flow model, TIMED Science Meeting 2007.
W. R. Skinner, R. J. Niciejewski, D. A. Gell, M. L. Cooper, A. R. Marshall, T. L. Killeen, Q. Wu, S. C. Solomon, D. A. Ortland (2007), Mesosphere and Lower Thermosphere Winds from space: A decade and a half of observations, Fall AGU 2007, abstract #SA41A-01.
Q. Wu, et. al. (2007), QBO related Diurnal tide inter-annual variations, The 3rd Chinese CAWSES-Space weather symposium, Guiyang, China, 7-13 Aug 2007.
J. Oberheide, J. M. Forbes, Q. Wu, M. E. Hagan, R. G. Roble, W. E. Ward (2007), Morphology and forcing of nonmigrating tides in the middle atmosphere, what did we learn from TIMED (so far)?, IUGG (July) 2007.
S. E. Palo, H. Iimura, Q. Wu, T. L. Killeen, S. C. Solomon (2007), Structure of the polar non-migrating semidiurnal tide observed fromTIDI, IUGG (July) 2007.
Q. Wu, T. L. Killeen, R. G. Roble, S. C. Solomon, D. A. Ortland, W. R. Skinner, R. Niciejewski (2007), Global distribution and inter-annual variations of mesospheric and lower thermospheric neutral wind migrating diurnal tide, IUGG (July) 2007.
Q. Wu, et. al. (2007), Inter-annual variations of diurnal tide, CEDAR (July) 2007.
Rick Niciejewski, W Skinner, M Cooper, A Marshall, T Killeen, Q Wu, S Solomon, D Ortland (2007), Simultaneous wind and temperature observations of tides in the mesosphere and lower thermosphere (MLT) from orbit, Spring AGU 2007, abstract #SA53B-02.
Q. Wu, T. L. Killeen, R. G. Roble, S. C. Solomon, D. A. Ortland, W. R. Skinner, R. Niciejewski (2007), Global distribution and inter-annual variations of mesospheric and lower thermospheric neutral wind migrating diurnal tide, Spring AGU 2007, abstract #SA52A-05.
D. A. Ortland, N/A (2007), A Data assimilation model for determining the mean state and migrating tide structures in the mesosphere and lower thermosphere using satellite measurements of wind and temperature, SPARC 2007, abstract #SA41A-02.
Q Wu, D A Ortland, T L Killeen, R G Roble, S C Solomon, J Xu, W R Skinner, R J Niciejewski (2007), Global Distribution and Inter-annual Variations of Mesospheric and Lower Thermospheric Neutral Wind Diurnal Tide, Eos Trans. AGU, 88(23), Jt. Assem. Suppl., Abstract SA52A-05.
x x, x (2007), Mesosphere and Lower Thermosphere (MLT) Temporal and Spatial Climatology and Variabilities, Eos Trans. AGU, 88(23), Jt. Assem. Suppl., Abstract SA52A-03.
Rick Niciejewski, W Skinner, M Cooper, A Marshall, T Killeen, Q Wu, S Solomon, D Ortland (2006), Systematic observations of high latitude dynamics in the mesosphere and lower thermosphere (MLT) from orbit, Fall AGU 2006, abstract #SA21A-0215.
Q Wu, S Solomon, T Killeen, D Ortland, W Skinner, R Niciejewski (2006), TIMED Doppler Interferometer (TIDI) observations of mesosphere and lower thermosphere tidal and planetary waves, Fall AGU 2006, abstract #SA31A-03.
x x, x (2006), The MLT wind field during the declining phase of solar cycles 22 and 23, Fall AGU 2006, abstract #SA24A-06.
J Kozyra, G Crowley, B Emery, X Fang, G Maris, M Mlynczak, R Niciejewski, S Palo, L Paxton, C Randall, P-P Rong, J Russell III, W Skinner, S Solomon, E Talaat, Q Wu, J-H Yee (2006), Changes in the upper/middle atmosphere during powerful high speed streams in 2003: possible pathways to climate variability, Romania, September 2006.
x x, x (2006), Multi-Year TIMED Doppler Interferometer (TIDI) Neutral Wind Data Observations and Comparisions with TIME-CGM Runs, COSPAR 2006.
x x, x (2006), Measurements of the O2(0-0) Atmospheric Band Nightglow Emission by TIMED Doppler Interferometer (TIDI) between 2003-2005, Eos Trans. AGU, 87(36), Jt. Assem. Suppl., Abstract SA31A-02.
W. R. Skinner, D. A. Gell, M. L. Cooper, R. J. Niciejewski, T. L. Killeen, S. C. Solomon, Q. Wu, D. A. Ortland, and A. R. Marshall (2005), The Mesospheric Wind Field as Measured by TIMED/TIDI and UARS/HRDI from 2002 to 2005, Fall AGU 2005, abstract #SA33A-04.
W. R. Skinner, D Gell, M Cooper, R Niciejewski, T Killeen, S Solomon, Q Wu, D Ortland, A Marshall (2005), The mesospheric wind field measured by TIMED/TIDI and UARS/HRDI from 2002 to 2005, Fall AGU 2005, poster.
x x, x (2005), The Climatology of Neutral Winds in the MLT Region as Observed From Orbit, Fall AGU 2005, abstract #SA33A-05.
x x, x (2005), TIDI broadband neutral wind data and comparison with ground based radar neutral wind measurements from different latitudes, Fall AGU 2005, abstract #SA43A-1088.
x x, x (2005), Gravity wave influence on the global structure of the diurnal tide in the mesosphere and lower thermosphere, Fall AGU 2005, abstract #SA34A-07.
x x, x (2005), Atmospheric effects of coronal holes and powerful high-speed solar wind streams in 2003 observed by the TIMED spacecraft, Spring AGU 2005, abstract #SA11A-05.
J Oberheide, Q Wu, T Killeen, M Hagan, R Roble, D Ortland, R Niciejewski, W Skinner (2005), Seasonal and interannual variability of nonmigrating tides in MLT winds, IAGA 2005, abstract #IAGA2005-A-00649.
F T Huang, H G Mayr, T L Killeen, J M Russell III, W R Skinner, C A Reber (2004), Analysis of temperature and wind measurements from the TIMED Mission: Comparison with UARS data, Eos Trans. AGU, 85(47), Fall Meet. Suppl., Abstract SA34A-04.
T Killeen, Q Wu, J Oberheide, D Ortland, S Solomon, W Skinner, R Niciejewski, R Gablehouse, R Roble, M Hagan, S Franke (2004), TIDI observations of mesospheric and lower thermospheric (MLT) tides in the neutral winds, Fall AGU 2004.
M F Morgan, J H Yee, E Talaat, M G Mlynczak, F J Martin-Torres, W R Skinner, J M Russell (2004), Morphological Studies of Mesospheric Chemical Heating Rates Using HRDI/UARS and SABER/TIMED Measurements, Eos Trans. AGU, 85(47), Fall Meet. Suppl., Abstract SA41A-1056.
J Oberheide, M Hagan, Q Wu, D Ortland, T Killeen, R Roble, R Niciejewski, W Skinner (2004), Nonmigrating diurnal tidal variability in mesopause region winds, Fall AGU 2004, abstract #SA34A-01.
Q Wu, T Killeen, S Solomon, R Gablehouse, D Ortland, R Niciejewski, W Skinner, N Mitchell, S Franke (2004), Combined TIDI and ground-based mesospheric neutral wind observations, Fall AGU 2004, abstract #SA41A-1034.
x x, x (2004), TIDI status report at CEDAR 2004 meeting, CEDAR 2004.
T Killeen, Q Wu, R Gablehouse, R Johnson, S Solomon, W Skinner, D Ortland, R Niciejewski, D Gell (2004), The TIMED Doppler Interferometer (TIDI) neutral wind measurements using the O2 P branch broadband filter, Spring AGU 2004, abstract #SA13A-02.
J. Oberheide, Wu, Q., Ortland, D. A., Killeen, T. L., Hagan, M. E., Roble, R. G. (2004), Atmospheric Coupling by Nonmigrating Tides as Derived from TIDI Measurements, COSPAR 2004.
D. M. Riggin, Lieberman, R., Wu, Q., Franke, S. (2004), Diurnal tidal wind estimates using TIDI and ground-based radars, COSPAR 2004.
Killeen T., Solomon, S., Wu, Q., Skinner, W., Ortland, D., Niciejewski, R., Johnson, R., Gablehouse, R., Gell, D. (2004), Study of The MLT Neutral Wind Tide, COSPAR 2004.
x x, x (2004), TIDI Neutral Winds From O2 P Branch Broadband Filter, COSPAR 2004.
D. A. Gell, R. J. Niciejewski, T. L. Killeen, Q. Wu, W. R. Skinner, S. C. Solomon, D. A. Ortland, J. F. Kafkalidis, R. D. Gablehouse, R. M. Johnson (2003), TIDI Observations relating to High Latitude Aeronomy, Fall AGU2003, abstract #SA41B-0448.
Q. Wu, R. D. Gablehouse, D. A. Gell, R. M. Johnson, J. F. Kafkalidis, T. L. Killeen, R. J. Niciejewski, D. A. Ortland, W. R. Skinner, S. C. Solomon (2003), Effects of Geomagnetic Storms and Sudden Stratospheric Warming on Mesosphere and Lower Thermosphere Winds, Fall AGU 2003, abstract #SA32B-06.
x x, x (2003), Observations of the seasonal variations of mesosphere and lower thermosphere tides by the TIMED Doppler Interferometer, Fall AGU 2003, abstract #SA32B-04.
T. L. Killeen, R. D. Gablehouse, D. A. Gell, R. M. Johnson, R. J. Niciejewski, D. A. Ortland, Q. Wu, W. R. Skinner, S. C. Solomon, J. F. Kafkalidis (2003), Neutral Wind Results from TIMED Doppler Interferometer, Joint EGS-AGU Spring Meeting 2003.
x x, x (2003), TIDI Preliminary Wind Results: Tidal Features and Validation Effort, Joint EGS-AGU Spring Meeting 2002, abstract #SA62B-0397.
x x, x (2003), TIDI Observations relating to Low Latitude Aeronomy, Joint EGS – AGU Spring Meeting 2003, abstract #13621.
x x, x (2003), Neutral wind observations during the April 2002 storm period, Spring AGU 2003, abstract #13777.
W Skinner, R Niciejewski, D Gell, A Marshall, E Wolff Jr, M Cooper, J Kafkalidis, D Ortland, Q Wu, S Solomon, R Gablehouse, T Killeen (2003), Operational performance of the TIMED Doppler Interferometer (TIDI), SPIE 2003, DOI: 10.1117/12.503727.
T. L. Killeen, R. D. Gablehouse, R. M. Johnson, Q. Wu, S. C. Solomon, D. A. Gell, R. J. Niciejewski, W. R. Skinner, J. F. Kafkalidis, D. A. Ortland (2002), Measurements of Mesosphere and Lower Thermosphere Winds by the TIMED Doppler Interferometer, AGU Fall 2002, abstract #SA61A-04.
x x, x (2002), Observations of the O2 Atmospheric Band Nightglow by the TIMED Doppler Interferometer, AGU Fall Meeting 2002.
x x, x (2002), Observations of the April 2002 Storm Period with TIMED/TIDI, AGU Fall 2002, abstract #SA21B-0466.
x x, x (2002), TIMED / TIDI and UARS / HRDI, Issues & Answers , AGU Fall Meeting, San Francisco, CA, 2002.
x x, x (2002), Coincidence Observations of Mesopause Region Temperatures and Winds of Ground-based Lidar with TIMED/SABER and TIMED/TIDI, AGU Fall Meeting, San Francisco, CA, 2002.
x x, x (2002), TIDI preliminary wind results: Tidal features and validation effort, AGU Fall Meeting 2002.
Q. Wu, Killeen, T., Gablehouse, R., Gell, D., Johnson, R., Kafkalidis, J., Niciejewski, R., Ortland, D., Skinner, W., Solomon, S. (2002), Wind measurements by the TIMED Doppler interferometer (TIDI), 34th COSPAR Scientific Assembly, The Second World Space Congress, held 10-19 October, 2002 in Houston, TX, USA..
S. C. Solomon, The TIDI Team (2002), TIMED Doppler Interferometer data validation, CEDAR Workshop 2002.
x x, x (2002), TIMED Doppler Interferometer Overview and Status, CEDAR Workshop 2002.
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W. R. Skinner, J. F. Kafkalidis, R. J. Niciejewski, T. L. Killeen, R. D. Gablehouse, D. A. Gell, D. A. Ortland, S. C. Solomon, Q. Wu, and R. M. Johnson (2002), TIMED / TIDI and UARS / HRDI, Issues & Answers, AGU Fall Meeting.
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