2010
DOI: 10.1016/j.jastp.2010.03.026
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Interannual variability of the S=1 and S=2 components of the semidiurnal tide in the Antarctic MLT

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Cited by 13 publications
(24 citation statements)
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“…This enhancement of the semidiurnal tide was also observed with an MF radar at a lower latitude at McMurdo (78°S, 167°W) [Fritts et al, 1998;Riggin et al, 1999]. By combining wind measurements with an MF radar at Scott Base and an Imaging Doppler interferometer (IDI) [Hibbins et al, 2006] and SuperDARN at Halley (76°S, 26°W) [Hibbins and Jarvis, 2008], Baumgaertner et al [2006] and Hibbins et al [2010aHibbins et al [ , 2010b confirmed that a summer enhancement of the SW1 mode is also observed at these latitudes. From comparisons of the semidiurnal tidal measurements at Scott Base, Molodezhnaya, and Mawson with those at South Pole, Portnyagin et al [1998] suggested that the SW1 mode dominates the semidiurnal tidal response from South Pole to ∼78°S, but that the semidiurnal tide is a mixture of the SW1 and SW2 modes at ∼68°S.…”
Section: Introductionsupporting
confidence: 57%
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“…This enhancement of the semidiurnal tide was also observed with an MF radar at a lower latitude at McMurdo (78°S, 167°W) [Fritts et al, 1998;Riggin et al, 1999]. By combining wind measurements with an MF radar at Scott Base and an Imaging Doppler interferometer (IDI) [Hibbins et al, 2006] and SuperDARN at Halley (76°S, 26°W) [Hibbins and Jarvis, 2008], Baumgaertner et al [2006] and Hibbins et al [2010aHibbins et al [ , 2010b confirmed that a summer enhancement of the SW1 mode is also observed at these latitudes. From comparisons of the semidiurnal tidal measurements at Scott Base, Molodezhnaya, and Mawson with those at South Pole, Portnyagin et al [1998] suggested that the SW1 mode dominates the semidiurnal tidal response from South Pole to ∼78°S, but that the semidiurnal tide is a mixture of the SW1 and SW2 modes at ∼68°S.…”
Section: Introductionsupporting
confidence: 57%
“…The westward propagating zonal wavenumber 1 (SW1) mode can make a significant contribution to the semidiurnal tidal wind field at high latitudes [ Du et al , 2007; Hibbins et al , 2010b; Mayr et al , 2005; Miyahara et al , 1999; Yamashita et al , 2002]. This mode has been identified in both ground‐based [ Baumgaertner et al , 2006; Hibbins et al , 2010a; Lau et al , 2006; Murphy et al , 2003] and satellite [ Iimura et al , 2010b] measurements. Additionally, Iimura et al [2009] and Murphy et al [2006] found evidence for the standing (SS0) and westward propagating zonal wavenumber 3 (SW3) modes over the Antarctic.…”
Section: Discussionmentioning
confidence: 99%
“…Numerous studies have identified and characterised the nature of non‐migrating tidal components in the atmosphere, in particular the different modes of the semidiurnal tide in the high‐latitude southern‐hemisphere mesosphere and lower‐thermosphere (MLT) region using optical data [e.g., Hernandez et al , 1993], radar winds [e.g., Forbes et al , 1995; Riggin et al , 1999; Murphy et al , 2003, 2006; Baumgaertner et al , 2006; Hibbins et al , 2010] and satellite data [e.g., Iimura et al , 2009]. In the most extensive study to date Murphy et al [2006] used composite days of monthly‐mean horizontal winds, generated from data recorded over multiple years at eight different ground‐based stations located across Antarctica, to extract all semidiurnal tidal oscillations with zonal wavenumbers from 0 to 3 (S = 0 to 3) normalised to a latitude of 69°S.…”
Section: Introductionmentioning
confidence: 99%
“… Hibbins et al [2010] used a similar approach to that of Baumgaertner et al [2006] to look for evidence of quasi‐biennial variability of the semidiurnal tide in the MLT at high southern latitudes [ Hibbins et al , 2007a]. In this instance they used meteor wind data from the Halley SuperDARN radar for comparison with the Scott Base MF radar.…”
Section: Introductionmentioning
confidence: 99%
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