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D
I. Cherniak, ii, Zakharenkova, I., and Redmon, R. J., Dynamics of the high-latitude ionospheric irregularities during the 17 March 2015 St. Patrick's Day storm: Ground-based GPS measurements, Space Weather, vol. 13, no. 9, pp. 585 - 597, 2015.
N. Polekh, Zolotukhina, N., Kurkin, V., Zherebtsov, G., Shi, J., Wang, G., and Wang, Z., Dynamics of ionospheric disturbances during the 17–19 March 2015 geomagnetic storm over East Asia, Advances in Space Research, vol. 60, no. 11, pp. 2464 - 2476, 2017.
D. Mourenas, Artemyev, A. V., and Zhang, X. ‐J., Dynamical Properties of Peak and Time‐Integrated Geomagnetic Events Inferred From Sample Entropy, Journal of Geophysical Research: Space Physics, vol. 125, no. 2, 2020.
N. Maruyama, The Dynamical IonosphereStorms and substorms—The new whole system approach and future challenges. Elsevier, 2020, pp. 87 - 119.
R. Kataoka, Nishitani, N., Ebihara, Y., Hosokawa, K., Ogawa, T., Kikuchi, T., and Miyoshi, Y., Dynamic variations of a convection flow reversal in the subauroral postmidnight sector as seen by the SuperDARN Hokkaido HF radar, Geophysical Research Letters, vol. 34, no. 21, 2007.
M. Zettergren, Semeter, J., Burnett, B., Oliver, W., Heinselman, C., Blelly, P. - L., and Diaz, M., Dynamic variability in F-region ionospheric composition at auroral arc boundaries, Annales Geophysicae, vol. 28, no. 2, pp. 651 - 664, 2010.
S. Eriksson, Maimaiti, M., Baker, J. B. H., Trattner, K. J., Knipp, D. J., and Wilder, F. D., Dual E × B flow responses in the dayside ionosphere to a sudden IMF By rotation, Geophysical Research Letters, vol. 44, no. 13, pp. 6525 - 6533, 2017.
Y. Zhang, Paxton, L. J., Meng, C. - I., Morrison, D., Wolven, B., Kil, H., and Christensen, A. B., Double dayside detached auroras: TIMED/GUVI observations, Geophysical Research Letters, vol. 31, no. 10, 2004.
M. V. Klimenko and Klimenko, V. V., Disturbance dynamo, prompt penetration electric field and overshielding in the Earth’s ionosphere during geomagnetic storm, Journal of Atmospheric and Solar-Terrestrial Physics, vol. 90-91, pp. 146 - 155, 2012.
S. V. Thampi, Shreedevi, P. R., Choudhary, R. K., Pant, T. Kumar, Chakrabarty, D., Sunda, S., Mukherjee, S., and Bhardwaj, A., Direct observational evidence for disturbance dynamo on the daytime low-latitude ionosphere: A case study based on the 28 June 2013 space weather event, Journal of Geophysical Research: Space Physics, vol. 121, no. 10, pp. 10,064 - 10,074, 2016.
Y. Nishimura, Kikuchi, T., Shinbori, A., Wygant, J., Tsuji, Y., Hori, T., Ono, T., Fujita, S., and Tanaka, T., Direct measurements of the Poynting flux associated with convection electric fields in the magnetosphere, Journal of Geophysical Research, vol. 115, no. A12, 2010.
Y. Nishimura, Lessard, M. R., Katoh, Y., Miyoshi, Y., Grono, E., Partamies, N., Sivadas, N., Hosokawa, K., Fukizawa, M., Samara, M., Michell, R. G., Kataoka, R., Sakanoi, T., Whiter, D. K., Oyama, S. -ichiro, Ogawa, Y., and Kurita, S., Diffuse and Pulsating Aurora, Space Science Reviews, vol. 216, no. 1, 2020.
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., 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, vol. 10, no. 2, pp. 381 - 402, 2018.
W. Jing, Yi, T. A. N. G., Zhi-Ge, Z. H. A. N. G., Xu-Li, Z. H. E. N. G., and Guo-Qiang, N. I., Determination of the Ionospheric Electron Density Profile from FUV Remote Sensing Measurements, Chinese Journal of Geophysics, vol. 56, no. 2, pp. 109 - 116, 2013.
G. Sivavaraprasad, D. Ratnam, V., R. Padmaja, S., Sharvani, V., Saiteja, G., Mounika, Y. S. R., and P. Harsha, B. Sree, Detection of ionospheric anomalies during intense space weather over a low-latitude GNSS station, Acta Geodaetica et Geophysica, vol. 52, no. 4, pp. 535 - 553, 2017.
W. Bo Sui, Song, K. Fei, and Zhang, P. Jie, The Design of Space Scanning Mirror Control System Based on Optimal Tracking Controller, Advanced Materials Research, vol. 546-547, pp. 790 - 794, 2012.
D. C. Humm, Paxton, L. J., Christensen, A. B., Ogorzalek, B. S., Pardoe, C. T., Meng, C. - I., Morrison, D., Strickland, D. J., Evans, J. S., Weiss, M. B., Crain, W., Lew, P. H., Mabry, D. J., Goldsten, J. O., Gary, S. A., Peacock, K., Persons, D. F., Harold, M. J., Alvarez, E. B., and Ercol, C. J., {Design and performance of the Global Ultraviolet Imager (GUVI)}, in EUV, X-Ray, and Gamma-Ray Instrumentation for Astronomy IX, 1998.
Y. Zhang, Paxton, L. J., and Schaefer, R. K., Deriving Thermospheric Temperature From Observations by the Global Ultraviolet Imager on the Thermosphere Ionosphere Mesosphere Energetics and Dynamics Satellite, Journal of Geophysical Research: Space Physics, vol. 124, no. 7, pp. 5848 - 5856, 2019.
D. Pallamraju, Chakrabarti, S., and Solomon, S. C., On deriving incident auroral particle fluxes in the daytime using combined ground-based optical and radar measurements, Journal of Geophysical Research, vol. 116, no. A4, 2011.
I. Cherniak, ii and Zakharenkova, I., Dependence of the high-latitude plasma irregularities on the auroral activity indices: a case study of 17 March 2015 geomagnetic storm, Earth, Planets and Space, vol. 6710261121474341051131839883110921092424830183294391141248812431666325546115262211911691118, no. 1A8518A3A62A236A7362A93447–8A749A1112, 2015.
V. V. Klimenko, Klimenko, M. V., Bessarab, F. S., Sukhodolov, T. V., and Rozanov, E. V., The dependence of four-peak longitudinal structure of the tropical electric field on the processes in the lower atmosphere and geomagnetic field configuration, Advances in Space Research, vol. 64, no. 10, pp. 1854 - 1864, 2019.
G. W. Prölss, Density Perturbations in the Upper Atmosphere Caused by the Dissipation of Solar Wind Energy, Surveys in Geophysics, vol. 32, no. 2, pp. 101 - 195, 2011.
H. Kil, Paxton, L. J., Lee, W. K., Ren, Z., Oh, S. - J., and Kwak, Y. - S., Is DE2 the source of the ionospheric wave number 3 longitudinal structure?, Journal of Geophysical Research, vol. 115, no. A11, 2010.
S. Basu, Basu, S., Huba, J., Krall, J., McDonald, S. E., Makela, J. J., Miller, E. S., Ray, S., and Groves, K., Day‐to‐day variability of the equatorial ionization anomaly and scintillations at dusk observed by GUVI and modeling by SAMI3, Journal of Geophysical Research, vol. 114, no. A4, 2009.
M. Aggarwal, Joshi, H. P., Iyer, K. N., Kwak, Y. - S., Lee, J. J., Chandra, H., and Cho, K. S., Day-to-day variability of equatorial anomaly in GPS-TEC during low solar activity period, Advances in Space Research, vol. 49, no. 12, pp. 1709 - 1720, 2012.
E. E. Pacheco and Yizengaw, E., The day-to-day longitudinal variability of the global ionospheric density distribution at low latitudes during low solar activity, Journal of Geophysical Research: Space Physics, vol. 118, no. 4, pp. 1813 - 1823, 2013.
A. W. Stephan, Meier, R. R., England, S. L., Mende, S. B., Frey, H. U., and Immel, T. J., Daytime O/N2 Retrieval Algorithm for the Ionospheric Connection Explorer (ICON), Space Science Reviews, vol. 214, no. 1, 2018.
A. W. Stephan, Korpela, E. J., Sirk, M. M., England, S. L., and Immel, T. J., Daytime Ionosphere Retrieval Algorithm for the Ionospheric Connection Explorer (ICON), Space Science Reviews, vol. 212, no. 1-2, pp. 645 - 654, 2017.
A. V. Mikhailov, Depueva, A. H., and Depuev, V. H., Daytime F2-layer negative storm effect: what is the difference between storm-induced and Q-disturbance events?, in Annales Geophysicae, 2007.
A. G. Burns, Solomon, S. C., Wang, W., Qian, L., Zhang, Y., and Paxton, L. J., Daytime climatology of ionospheric N m F 2 and h m F 2 from COSMIC data, Journal of Geophysical Research, vol. 117, no. A9, 2012.
T. S. Ram, Lei, J., Su, S. - Y., Liu, C. H., Lin, C. H., and Chen, W. S., Dayside ionospheric response to recurrent geomagnetic activity during the extreme solar minimum of 2008, Geophysical Research Letters, vol. 37, no. 2, p. n/a - n/a, 2010.
Y. Zhang and Paxton, L. J., Dayside convection aligned auroral arcs, Geophysical Research Letters, vol. 33, no. 13, 2006.
H. U. Frey, Han, D., Kataoka, R., Lessard, M. R., Milan, S. E., Nishimura, Y., Strangeway, R. J., and Zou, Y., Dayside Aurora, Space Science Reviews, vol. 215, no. 8, 2019.
J. Park, Min, K. W., Parks, G. K., Zhang, Y., Lee, J. - J., Baker, J. B. H., Kim, H. J., Hwang, J., Yumoto, K., Uozumi, T., and Lee, C. N., Dayside and nightside segments of a polar arc: The particle characteristics, Journal of Geophysical Research, vol. 117, no. A7, 2012.
C
W. Wan, Xiong, J., Ren, Z., Liu, L., Zhang, M. - L., Ding, F., Ning, B., Zhao, B., and Yue, X., Correlation between the ionospheric WN4 signature and the upper atmospheric DE3 tide, Journal of Geophysical Research, vol. 115, no. A11, 2010.
T. Ai Chen, Tang, Y., Zhang, L. Jun, Chang, Y. E., and Zheng, C., Correction of astigmatism and coma using analytic theory of aberrations in imaging spectrometer based on concentric off-axis dual reflector system, Applied Optics, vol. 53, no. 4, p. 565, 2014.
Y. Zhang and Paxton, L. J., Corotation of ring current auroral spots at sub-auroral latitudes, Journal of Atmospheric and Solar-Terrestrial Physics, vol. 198, p. 105195, 2020.
J. Comberiate and Paxton, L. J., Coordinated UV imaging of equatorial plasma bubbles using TIMED/GUVI and DMSP/SSUSI, Space Weather, vol. 8, no. 10, 2010.
E. S. Miller, Makela, J. J., Groves, K. M., Kelley, M. C., and Tsunoda, R. T., Coordinated study of coherent radar backscatter and optical airglow depletions in the central Pacific, Journal of Geophysical Research, vol. 115, no. A6, 2010.
M. Galand and Lummerzheim, D., Contribution of proton precipitation to space-based auroral FUV observations, Journal of Geophysical Research, vol. 109, no. A3, 2004.
S. M. Buhari, Abdullah, M., Hasbi, A. M., Otsuka, Y., Yokoyama, T., Nishioka, M., and Tsugawa, T., Continuous generation and two-dimensional structure of equatorial plasma bubbles observed by high-density GPS receivers in Southeast Asia, Journal of Geophysical Research: Space Physics, vol. 119, no. 12, pp. 10,569 - 10,580, 2014.
D. J. Strickland, Lean, J. L., Daniell, R. E., Knight, H. K., Woo, W. K., Meier, R. R., Straus, P. R., Woods, T. N., Eparvier, F. G., McMullin, D. R., Christensen, A. B., Morrison, D., and Paxton, L. J., Constraining and validating the Oct/Nov 2003 X-class EUV flare enhancements with observations of FUV dayglow and E -region electron densities, Journal of Geophysical Research, vol. 112, no. A6, 2007.
P. G. Richards, Meier, R. R., and Wilkinson, P. J., On the consistency of satellite measurements of thermospheric composition and solar EUV irradiance with Australian ionosonde electron density data, Journal of Geophysical Research, vol. 115, no. A10, 2010.
Z. Xing, Zhang, Q., Han, D., Zhang, Y., Sato, N., Zhang, S., Hu, Z., Wang, Y., and Ma, Y., Conjugate Observations of the Evolution of Polar Cap Arcs in Both Hemispheres, Journal of Geophysical Research: Space Physics, 2018.
A. Patari, De, B. Kumar, Guha, A., and Paul, B., Conjugate hemispheric response of earth’s ionosphere due to geomagnetic storms occurred during two equinox periods, Journal of Physics: Conference Series, vol. 1330, p. 012004, 2019.
B. Raj Kalita, Hazarika, R., Kakoti, G., Bhuyan, P. K., Chakrabarty, D., Seemala, G. K., Wang, K., Sharma, S., Yokoyama, T., Supnithi, P., Komolmis, T., Yatini, C. Y., Le Huy, M., and Roy, P., Conjugate hemisphere ionospheric response to the St. Patrick's Day storms of 2013 and 2015 in the 100°E longitude sector, Journal of Geophysical Research: Space Physics, vol. 121, no. 11, pp. 11,364 - 11,390, 2016.
T. Yu, Ren, Z., Yue, X., Yu, Y., and Wan, W., Comparison of Thermospheric Density Between GUVI Dayside Limb Data and CHAMP Satellite Observations: Based on Empirical Model, Journal of Geophysical Research: Space Physics, vol. 124, no. 3, pp. 2165 - 2177, 2019.
C. Y. Lin, Deng, Y., Venkataramani, K., Yonker, J., and Bailey, S. M., Comparison of the Thermospheric Nitric Oxide Emission Observations and the GITM Simulations: Sensitivity to Solar and Geomagnetic Activities, Journal of Geophysical Research: Space Physics, 2018.

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