[1] |
Lü D R, Bian J C, Chen H B, et al.Frontiers and significance of research on stratospheric processes[J].Adv.Earth Sci., 2009, 24(3):221-227
|
[2] |
Chen Z Y, Chen H B, Lü D R, et al.Advances in researches on the middle and upper atmosphere in 2008-2010[J].Chin.J.Space Sci., 2010, 30(5):456-463
|
[3] |
Qian H J, Hu X, Tu C.Research on space-based global atmospheric wave imager[J].Chin.J.Space Sci., 2012,32(3):362-367 (in Chinese)
|
[4] |
Zhu Y J, Xu J Y, Yuan W, et al.First experiment of spectrometric observation of hydroxyl emission and rotational temperature in the mesopause in China[J].Sci.China:Tech.Sci., 2012, 55(5):1312-1318
|
[5] |
Li T, Fang X, Liu W, et al.Narrowband sodium lidar for the measurements of mesopause region temperature and wind[J].Appl.Opt., 2012, 51(22):5401-5411
|
[6] |
Guan S, Yang G T, Chang Q H, et al.New methods of data calibration for high power-aperture lidar[J].Opt.Expr., 2013, 21(6):7768-7785
|
[7] |
Yi F, Zhang S D, Yu C M, et al.Simultaneous and common-volume three-lidar observations of sporadic metal layers in the mesopause region[J].J.Atmos.Sol.Terr.Phys., 2013, 102:72-184
|
[8] |
Xue X H, Dou X K, Lei J, et al.Lower thermospheric enhanced sodium layers observed at low latitude and possible formation: Case studies[J].J.Geophys.Res.Space Phys., 2013, 118:2409-2418
|
[9] |
Dou X K, Qiu S C, Xue X H, et al.Sporadic and thermospheric enhanced sodium layers observed by a lidar chain over China[J].J.Geophys.Res.Space Phys., 2013,118:6627-6643
|
[10] |
Gong S H, Yang G T, Xu J Y, et al.Lidar studies on the nighttime and seasonal variations of background sodium layer at different latitudes in China[J].Chin.J.Geophys.,2013, 56(8):2511-2521 (in Chinese)
|
[11] |
Wang J H, Yang Y, Cheng X W, et al.Double sodium layers observation over Beijing, China[J].Geophys.Res.Lett., 2012, 39(15), doi: 10.1029/2012GL052659
|
[12] |
Wang W B, Talaat E R, Burns A G, et al.Thermosphere and ionosphere response to subauroral polarization streams (SAPS): Model simulations[J].J.Geophys.Res.,2012, 117, A07301, doi: 10.1029/2012JA017656
|
[13] |
Ma R P, Xu J Y, Wang W B, et al.The effect of ~27day solar rotation on ionospheric F2 region peak densities (NmF2)[J].J.Geophys.Res., 2012, 117, A03303,doi: 10.1029/2011JA017190
|
[14] |
Xu J Y, Ma R P, Wang W B, et al.Terannual variation in the F2layer peak electron density (NmF2) at middle latitudes[J].J.Geophys.Res., 2012, 117, A01308,doi: 10.1029/2011JA017191
|
[15] |
Xu J Y, Gao H, Smith A K, et al.Using TIMED/SABER nightglow observations to investigate hydroxyl emission mechanisms in the mesopause region[J].J.Geophys.Res.,2012, 117, D02301, doi: 10.1029/2011JD016342
|
[16] |
Gao H, Nee J B, Xu J Y.The emission of oxygen green line and density of O atom determined by using ISUAL and SABER measurements[J].Ann.Geophys., 2012, 30:695-701
|
[17] |
Gao H, Nee J B, Chen G M.Longitudinal distribution of O2 nightglow brightness observed by TIEMD/SABER satellite[J].Sci.China: Tech.Sci., 2012, 55(5):1258-1263
|
[18] |
Yang J, Qie X S, Feng G L.Characteristics of one spriteproducing summer thunderstorm[J].Atmos.Res., 2013,127:90-115
|
[19] |
Yang, J, Yang M R, Liu C, et al.Case Studies of Spriteproducing and Non-sprite-producing Summer Thunderstorms[J].Adv.Atmos.Sci., 2013, 30(6):1786-1808
|
[20] |
Chen G M, Xu J Y, Wang W B, et al.A comparison of the effects of CIR- and CME-induced geomagnetic activity on thermospheric densities and spacecraft orbits:Case studies[J].J.Geophys.Res., 2012, 117, A08315,doi: 10.1029/2012JA017782
|
[21] |
Xu J Y, Wang W B, Gao H.The longitudinal variation of the daily mean thermospheric mass density[J].J.Geophys.Res.Space Phys., 2013, 118(1):515-523
|
[22] |
Chen X X, Hu X, Xiao C Y, et al.Correction method of the low earth orbital neutral density prediction based on the satellites data and NRLMSISE-00 model[J].Chin.J.Geophys., 2013, 56(10):3246-3254 (in Chinese)
|
[23] |
Chen X X, Hu X, Xiao C Y, et al.Comparison of the thermospheric densities between GRACE/CHAMP satellites data and NRLMSISE-00 model[J].Chin.J.Space Sci., 2013, 33(5):509-517 (in Chinese)
|
[24] |
Xu J Y, Smith A K, Wang W B, et al.An observational and theoretical study of the longitudinal variation in neutral temperature induced by aurora heating in the lower thermosphere[J].J.Geophys.Res.Space Phys., 2013,118(11):7410-7425
|
[25] |
Gong X Y, Hu X, Wu X C.Research on ionosphere calibration methods in GNSS Atmospheric Radio occultation [J].GNSS World China, 2012, 37(2):1-7 (in Chinese)
|
[26] |
Gong XY, Hu X, Wu X C, et al.Comparison of temper-ature measurements between COSMIC atmospheric radio occultation and SABER/TIMED[J].Chin.J.Geophys.,2013, 56(7):2152-2162 (in Chinese)
|
[27] |
Yuan W, Liu X, Xu J Y, et al.FPI observations of night-time mesospheric and thermospheric winds in China and their comparisons with HWM07[J].Ann.Geophys., 2013,31:1365-1378
|
[28] |
Ling C, Chen Z Y, Chen H B.Global structure and variation of mesospheric and lower thermospheric zonal wind in the 120°E meridian[J].Acta Phys.Sin., 2012, 61(24),249201 (in Chinese)
|
[29] |
Saunders R W, Dhomse S, Tian W S, et al.Interac-tions of meteoric smoke particles with sulphuric acid in the Earth's stratosphere[J].Atmos.Chem.Phys., 2012,12:4387-4398
|
[30] |
Bian J C, Yan R C, Chen H B, et al.Formation of the summertime ozone valley over the Tibetan Plateau: The Asian summer monsoon and air column variations[J].Adv.Atmos.Sci., 2011, 28(6):1318-1325
|
[31] |
Wang Y, Konopka P, Liu Y, et al.Tropospheric ozone trend over Beijing from 2002-2010: Ozonesonde measurements and modeling analysis[J].Atmos.Chem.Phys.,2012, 12:8389-8399
|
[32] |
Bian J C, Pan L L, Paulik L, et al.In situ water vapor and ozone measurements in Lhasa and Kunming during the Asian summer monsoon[J].Geophys.Res.Lett., 2012,39, L19808, doi: 10.1029/2012GL052996
|
[33] |
Liu E X, Hu H Q, Hosokawa K, et al.First observations of polar mesosphere summer echoes by SuperDARN Zhongshan radar[J].J.Atmos.Sol.Terr.Phys., 2013,104:39-44
|
[34] |
Gan Q, Zhang S D, Yi F.TIMED/SABER observations of lower mesospheric inversion layers at low and middle latitudes[J].J.Geophys.Res., 2012, 117, D07109,doi: 10.1029/2012JD017455
|
[35] |
Huang Y Y, Zhang S D, Yi F, et al.Global climatological variability of quasi-two-day waves revealed by TIMED/SABER observations[J].Ann.Geophys., 2013,31:1061-1075
|
[36] |
Gong Y,.Zhou Q H, Zhang S D, et al.Midnight ionosphere collapse at Arecibo and its relationship to the neutral wind, electric field, and ambipolar diffusion[J].J.Geophys.Res., 2012, 117, A08332,doi: 10.1029/2012JA017530
|
[37] |
Gong Y, Zhou Q H, Zhang S D, et al.The F regionand topside ionosphere response to a strong geomagnetic storm at Arecibo[J].J.Geophys.Res.Space Phys., 2013,118, doi: 10.1002/jgra.50502
|
[38] |
Li T, Liu A Z, Lu X, et al.Meteor-radar observed mesospheric Semi-Annual Oscillation (SAO) and Quasi-Biennial Oscillation (QBO) over Maui, Hawaii[J].J.Geophys.Res., 2012, 117, D05130, doi:10.1029/ 2011-JD016123
|
[39] |
Li T, Calvo N, Yue J, et al.Influence of El Niño-Southern Oscillation in the mesosphere[J].Geophys.Res.Lett.,2013, 40:3292-3296
|
[40] |
Chen X X, Hu X, Xiao C Y.Variability of MLT winds and waves over mid-latitude during the 2000/2001 and 2009/2010 winter stratospheric sudden warming[J].Ann.Geophys., 2012, 30:991-1001
|
[41] |
Li Q Z, Xu J Y, Yue J, et al.Investigation of a mesospheric bore event over northern China[J].Ann.Geophys., 2013,31:409-418
|
[42] |
Xiao C Y, Hu X, Smith A K, et al.Short-term variability and summer-2009 averages of the mean wind and tides in the mesosphere and lower thermosphere over Langfang,China (39.4°N, 116.7°E)[J].J.Atmos.Sol.Terr.Phys.,2013, 92:65-77
|
[43] |
Wang R, Zhang S D, Yang H G, et al.Characteristics of mid-latitude planetary waves in the lower atmosphere derived from radiosonde data[J].Ann.Geophys., 2012,30:1463-1477
|
[44] |
Xu J Y, Smith A K, Jiang G Y, et al.Features of the seasonal variation of the semidiurnal, terdiurnal and 6hcomponents of ozone heating evaluated from Aura/MLSobservations[J].Ann.Geophys., 2012, 30:259-281
|
[45] |
Gu S Y, Li T, Dou X K, et al.Long-term observations of the quasi two-day wave by Hawaii MF radar[J].J.Geophys.Res.Space Phys., 2013, 118:7886-7894
|
[46] |
Gu S Y, Li T, Dou X K, et al.Observations of Quasi-Two-Day wave by TIMED/SABER and TIMED/TIDI[J].J.Geophys.Res.Atmos., 2013, 118:1624-1639
|
[47] |
Jiang G Y, Xu J Y, Yuan W, et al.A comparison of mesospheric winds measured by FPI and meteor radar located at 40°N[J].Sci.China: Tech.Sci., 2012, 55,doi: 10.1007/s11431-012-4773-1
|
[48] |
Xiao C Y, Hu X, Xu QC, et al.Observations of quasi-16-day waves in the mesosphere and lower thermosphere over Langfang, China[C]//Chinese Geophysical Society Annual, 2012: 698
|
[49] |
Gong S H, Yang G T, Xu J Y, et al.Statistical characteristics of atmospheric gravity wave in the mesopause region observed with a sodium lidar at Beijing, China[J].J.Atmos.Sol.Terr.Phys., 2013, 97:143-151
|
[50] |
Tu C, Hu X.Spectra of the OH Airglow Perturbation on 5 Januray 2009 at Langfang[J].Chin.J.Space Sci., 2012,32(6):824-828 (in Chinese)
|
[51] |
Wu Y F, Yuan W, Xu J Y.Gravity wave activity in the troposphere and lower stratosphere: An observational study of seasonal and interannual variations[J].J.Geophys.Res.Atmos., 2013, 118(19):11352-11359
|
[52] |
Zhang S D, Yi F, Huang C M, et al.High vertical resolution analyses of gravity waves and turbulence at a midlatitude station[J].J.Geophys.Res., 2012, 117, D02103,doi: 10.1029/2011JD016587
|
[53] |
Zhang S D, Yi F, Huang C M, et al.Latitudinal and altitudinal variability of lower atmospheric inertial gravity waves revealed by US radiosonde data[J].J.Geophys.Res.Atmos., 2013, 118:1-15
|
[54] |
Zhang Y H, Seidel D J, Zhang S D.Trends in planetary boundary layer height over Europe[J].J.Climate, 2013,26:10071-10076
|
[55] |
Xue XH, Liu H L, Dou X K.Parameterization of the inertial gravity waves and generation of the quasi-biennial oscillation[J].J.Geophys.Res., 2012, 117,doi: 10.1029/2011JD016778
|
[56] |
Liu X, Zhou Q H, Yuan W, et al.Influences of nonisothermal atmospheric backgrounds on variations of gravity wave parameters[J].Sci.China: Tech.Sci., 2012, 55,doi: 10.1007/s11431-012-4796-7
|
[57] |
Liu X, Xu J Y, Yue J, et al.Numerical modeling study of the momentum deposition of small amplitude gravity waves in the thermosphere[J].Ann.Geophys., 2013, 31:1-14
|
[58] |
Wu Q, Chen Z Y, Mitchell N, et al.Mesospheric wind disturbances due to gravity waves near the Antarctica Peninsula[J].J.Geophys.Res.Atmos., 2013, 118:7765-7772
|
[59] |
Chen D, Chen ZY, Lü D R.Simulation of the generation of stratospheric gravity waves in upper tropospheric jet stream accompanied with a cold vortex over Northeast China[J].Chin.J.Geophys., 2014, 57(1):10-20 (inChinese)
|
[60] |
Chen D, Chen Z Y, Lü D R.Simulation of the strato-spheric gravity waves generated by the Typhoon Masta in2005[J].Sci.China: Earth Sci., 2012, 55(4):602-610
|
[61] |
Chen D, Chen ZY, Lü D R.Spatiotemporal spectrum and momentum flux of the stratospheric gravity waves generated by a typhoon[J].Sci.China: Earth Sci., 2013,56:54-62
|
[62] |
Huang K M, Zhang S D, Yi F, et al.Third-order resonant interaction of atmospheric gravity waves[J].J.Geophys.Res.Atmos., 2013, 118:2197-2206
|
[63] |
Huang K M, Zhang S D, Yi F.A numerical study on matching relationships of gravity waves in nonlinear interactions[J].Sci.China: Earth Sci., 2013, 56:1079-1090
|
[64] |
Huang K M, Zhang S D, Yi F, et al.Nonlinear interaction of gravity waves in a non isothermal and dissipative atmosphere[J].Ann.Geophys., 2014 (in press)
|
[65] |
Huang K M, Liu A Z, Zhang S D, et al.Spectral energy transfer of atmospheric gravity waves through sum and difference nonlinear interactions[J].Ann.Geophys.,2012, 30:303-315
|
[66] |
Huang C M, Zhang S D, Yi F, et al.Frequency variations of gravity waves interacting with a time-varying tides[J].Ann.Geophys., 2013, 31:1731-1743
|
[67] |
Huang C M, Zhang S D, Zhou Q H, et al.Atmospheric waves and their interactions in the thermospheric neutral wind as observed by the Arecibo incoherent scatter radar[J].J.Geophys.Res., 2012, 117, D19105,doi: 10.1029/2012JD018241
|
[68] |
Huang K M, Liu A Z, Lu X, et al.Nonlinear coupling between quasi 2 day wave and tides based on meteor radar observations at Maui[J].J.Geophys.Res.Atmos., 2013,118:10936-10943
|
[69] |
Huang K M, Liu A Z, Zhang S D, et al.A nonlinear interaction event between a 16-day wave and a diurnal tide from meteor radar observations[J].Ann.Geophys., 2013,31:2039-2048
|
[70] |
Kong W W, Hu Y Y.Influences of stratospheric NAM anomalies on the Ural Blocking High[J].Acta Sci.Nat.Univ.Pek., 2014, 50(3):445-455 (in Chinese)
|
[71] |
Wan X M, Fu Z T, Hu Y Y.The influence of strato-spheric anomalies on the Northeast Cold Vortex[J].Acta Sci.Nat.Univ.Pek., 2013, 49:417-425 (in Chinese)
|
[72] |
Jia Z, Wen X Y, Hu Y Y, et al.Tests of short-term climate prediction for winter 2011-2012 using stratospheric NAM signals[J].J.Appl.Meteorol.Sci., 2014, 25(1):107-111
|
[73] |
Luo J L, Tian W S, Pu Z X, et al.Characteristics of stratosphere troposphere exchange during the Meiyu season[J].J.Geophys.Res.Atmos., 2013, 118:2058-2072
|
[74] |
Shu J C, Tian W S, Hu D Z, et al.Effects of the quasi-biennial oscillation and stratospheric semiannual oscillation on tracer transport in the upper stratosphere[J].J.Atmos.Sci., 2013, 70(5):1370-1389
|
[75] |
Shang L, Tian W S, Dhomse S, et al.Direct and indi-rect effects of solar variations on stratospheric ozone and temperature[J].Chin.Sci.Bull., 2013, 58(31):3840-3846
|
[76] |
Wei K, Chen W.Northern Hemisphere stratospheric polar vortex extremes in February under the control of downward wave flux in the lower stratosphere[J].Atmos.Ocean.Sci.Lett., 2012, 5:183-188
|
[77] |
Wei K, Bao Q.Projections of the East Asian winter monsoon under the IPCC AR5 scenarios using a coupled model: IAP FGOALS[J].Adv.Atmos.Sci., 2012,29(6):1200-1214
|
[78] |
Chen W, Wei K, Wang L, et al.Climate variability and mechanisms of the East Asian winter monsoon and the impact from the stratosphere[J].Chin.J.Atmos.Sci.,2013, 37(2):425-438 (in Chinese)
|
[79] |
Lan X Q, Chen W.Strong cold weather event over Eurasia during the winter of 2011/2012 and a downward Arctic Oscillation signal from the stratosphere[J].Chin.J.Atmos.Sci., 2013, 37(4):863-872 (in Chinese)
|
[80] |
Chen W, Lan X Q, Wang L, et al.The combined effects of the ENSO and the Arctic Oscillation on the winter climate anomalies in East Asia[J].Chin.Sci.Bull., 2013,58:1355-1362
|
[81] |
Chen W, Zhou Q.Modulation of the Arctic Oscillation and the East Asian winter climate relationships by the 11-year solar cycle[J].Adv.Atmos.Sci., 2012, 29(2):217-226
|
[82] |
Hu J G, Ren R C, Yu Y Y, et al.The boreal spring strato-spheric final warming and its interannual and interdecadal variability[J].Sci.China: Earth Sci., 2013, 56:1-9
|
[83] |
Ren R C, Cai M, Xiang C Y, et al.Observational evidence of the delayed response of stratospheric polar vortex variability to ENSO SST anomalies[J].Climate Dyn., 2012,38(7-8):1345-1358
|
[84] |
Ren R C, Yang Y.Changes in winter stratospheric circulation in CMIP5 scenarios simulated by the climate system model FGOALS-s2[J].Adv.Atmos.Sci., 2012,29(6):1374-1389
|
[85] |
Xie F, Li J, Tian W, et al.Signals of El Niño Modoki in the tropical tropopause layer and stratosphere[J].Atmos.Chem.Phys., 2012, 12:5259-5273
|
[86] |
Wang W, Tian W, Dhomse S, et al.Stratospheric ozone depletion from future nitrous oxide increase[J].Atmos.Chem.Phys.Discuss., 2013, 13: 29447-29481.
|
[87] |
Dhomse S, Saunders R W, Tian W S, et al.Plutonium-238 observations as a test of modeled transport and surface deposition of meteoric smoke particles[J].Geophys.Res.Lett., 2013, 40(16):4454-4458
|
[88] |
Hu Y Y, Xia Y.Extremely cold and persistent strato-spheric Arctic vortex in winter 2010-2011 [J].Chin.Sci.Bull., 2013, 58(25):3155-3160
|