2018
DOI: 10.5194/angeo-36-1403-2018
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Strong downdrafts preceding rapid tropopause ascent and their potential to identify cross-tropopause stratospheric intrusions

Abstract: Abstract. The capability of measuring three-dimensional wind and tropopause structure with relatively high time and vertical resolution makes very-high-frequency (VHF) radars a potentially important tool for studying various processes of the atmosphere. However, at present several unanswered questions remain regarding the use of VHF radars to identify possible stratospheric intrusions. Here the potential detection of stratospheric intrusion events is discussed using the Beijing MST (mesosphere–stratosphere–tro… Show more

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Cited by 8 publications
(4 citation statements)
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“…The detailed technical specifications of the Beijing MST radar can be found in the study of Tian and Lu [56][57][58]. It has been used to investigate the horizontal wind, tropopause height [59,60], gravity waves, and turbulence [61,62]. The observational performance and data accuracy of the Beijing MST radar in terms of horizontal wind in the altitudinal range of 3-25 km have been validated by comparing with the nearest radiosonde data, proving that there is perfect agreement between the two types of measurements based on 427 profiles and 15,210 data pairs [57].…”
Section: Beijing Mst Radar Observationsmentioning
confidence: 99%
“…The detailed technical specifications of the Beijing MST radar can be found in the study of Tian and Lu [56][57][58]. It has been used to investigate the horizontal wind, tropopause height [59,60], gravity waves, and turbulence [61,62]. The observational performance and data accuracy of the Beijing MST radar in terms of horizontal wind in the altitudinal range of 3-25 km have been validated by comparing with the nearest radiosonde data, proving that there is perfect agreement between the two types of measurements based on 427 profiles and 15,210 data pairs [57].…”
Section: Beijing Mst Radar Observationsmentioning
confidence: 99%
“…According to the radial velocities recorded by the five beams, the velocities of three-dimensional wind fields can be estimated. As a result of partial specular reflection from the atmospheric stable layer, the tropopause can be simply and directly detected by very-high-frequency (VHF) radar by the vertical beam [24,25]. During the heavy rain on 2 June 2015, the Wuhan MST radar was used to investigate the atmospheric responses at troposphere and low-stratosphere heights.…”
Section: Experiments Overviewmentioning
confidence: 99%
“…As a result, the time resolutions of the low-, middle-, and high-mode measurements are all 30 min. A more detailed review of the radar system is given by Chen et al (2016).…”
Section: Radar Datasetmentioning
confidence: 99%
“…Using this characteristic, the RT height can be determined effectively. Here, the RT is defined as the altitude (above 500 hPa) where the maximum vertical gradient of echo power is located (Vaughan et al, 1995;Alexander et al, 2013;Ravindrababu et al, 2014;Chen et al, 2018). Considering the occasional and random noise to which the derived RT is sensitive, the echo-power profiles are smoothed by a three-point running mean.…”
Section: Tropopause Definitionsmentioning
confidence: 99%