TY - JOUR
T1 - Further evidence for a 6-h tide above Arecibo
AU - Morton, Yu Tong
AU - Mathews, J. D.
AU - Zhou, Qihou
N1 - Funding Information:
Acknolcledyc~mmis~The authors gratefully acknowledge the many fruitful discussions and generous assistanceg iven, over the course of many experimental observations, by Drs M. P. Sulzer and C. A. Tepley, as well as the entire Arecibo Observatory Staff. Our interactions with the many participants in the AIDA campaign are also deeply appreciated. This research has been funded by the National Science Foundation through grant ATM-874331X to The Pennsylvania State University. Arecibo Observatory of the National Astronomy and Ionosphere Center is operated by Cornell Llniversity under contract to the National Science Foundation.
PY - 1993/3
Y1 - 1993/3
N2 - Since the publication of results suggesting the existence of a 6-h tide in the E region above Arecibo [(Tong et al., 1988) J. geophys. Res. 93, 10047-10051], much more data has been collected and analyzed. In particular, the time-height trajectories of middle and upper E region Tidal Ion Layers (TILs) for early January 1989 closely resemble those from early January 1981, which first revealed the presence of a 6-h quasi-periodic intermediate layer structure. Further, the January 1989 observations form an 'overture' to the March-May 1989 AIDA (Arecibo Initiative in Dynamics of the Atmosphere) campaign, which yielded a total of 28 days of additional data regarding TIL motion. Interestingly, the AIDA data set is dominated, above about 120 km altitude, by sporadic intermediate layers [(mathews et al., 1993) J. atmos. terr. Phys. 55, 447-457] and certainly does not show the consistent 6-h period TIL feature seen in the two January data sets. In reviewing all data collected over the past 10 yr and the extensive 1989 observations in particular, we conclude that the basic TIL structure is controlled by two separate tidal wind patterns. We refer to these as the normal pattern and the 'deep-winter' pattern. The normal pattern includes the combination of diurnal and semidiurnal tides, while the deep-winter pattern has an additional 6-h tidal component. The deep winter pattern remains unexplained, but we suggest that the 6-h periodicity, which appears to be phase locked with the semidiurnal tide, is generated via in situ non-linear frequency doubling of the semidiurnal tide. The January 1989 results also manifest a TIL structure, below 100 km altitude, which has not been previously reported.
AB - Since the publication of results suggesting the existence of a 6-h tide in the E region above Arecibo [(Tong et al., 1988) J. geophys. Res. 93, 10047-10051], much more data has been collected and analyzed. In particular, the time-height trajectories of middle and upper E region Tidal Ion Layers (TILs) for early January 1989 closely resemble those from early January 1981, which first revealed the presence of a 6-h quasi-periodic intermediate layer structure. Further, the January 1989 observations form an 'overture' to the March-May 1989 AIDA (Arecibo Initiative in Dynamics of the Atmosphere) campaign, which yielded a total of 28 days of additional data regarding TIL motion. Interestingly, the AIDA data set is dominated, above about 120 km altitude, by sporadic intermediate layers [(mathews et al., 1993) J. atmos. terr. Phys. 55, 447-457] and certainly does not show the consistent 6-h period TIL feature seen in the two January data sets. In reviewing all data collected over the past 10 yr and the extensive 1989 observations in particular, we conclude that the basic TIL structure is controlled by two separate tidal wind patterns. We refer to these as the normal pattern and the 'deep-winter' pattern. The normal pattern includes the combination of diurnal and semidiurnal tides, while the deep-winter pattern has an additional 6-h tidal component. The deep winter pattern remains unexplained, but we suggest that the 6-h periodicity, which appears to be phase locked with the semidiurnal tide, is generated via in situ non-linear frequency doubling of the semidiurnal tide. The January 1989 results also manifest a TIL structure, below 100 km altitude, which has not been previously reported.
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U2 - 10.1016/0021-9169(93)90081-9
DO - 10.1016/0021-9169(93)90081-9
M3 - Article
AN - SCOPUS:38249004261
SN - 0021-9169
VL - 55
SP - 459
EP - 465
JO - Journal of Atmospheric and Terrestrial Physics
JF - Journal of Atmospheric and Terrestrial Physics
IS - 3
ER -