On the In Situ Observations of Irregularities During Rocket Flights From Thumba for Different Geophysical Conditions and the Associated Causative Mechanisms

Electron density and Neutral Wind (ENWi) probe and/or Langmuir probe were flown on three different rocket flights from equatorial station Thumba (8.5°N, 77°E), during daytime, eclipse time, and post sunset time respectively, of low solar activity period, to study ionization irregularities in the E r...

Full description

Saved in:
Bibliographic Details
Published in:Journal of geophysical research. Space physics 2023-11, Vol.128 (11), p.n/a
Main Authors: Sruthi, T. V., Manju, G., Mridula, N., Pant, Tarun K., Sreelatha, P., John, Rosmy, Thampi, R. Satheesh, Aneesh, A. N., Abhishek, J. K.
Format: Article
Language:English
Subjects:
Daytime
Density gradients
Drift
E region
Electrojets
Electron density
Electron density measurement
Electrons
Equatorial regions
Geophysics
gradient drift instability
Gravity waves
In situ measurement
Instability
Ionization
Ionosphere
Ionospheric plasma
Irregularities
irregularity spectra
Langmuir waves
neutral turbulence
Payloads
Solar activity
Solar eclipses
Stability
Strong winds
Sunset
Turbulence
Wind measurement
Wind shear
Citations: Items that this one cites
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Electron density and Neutral Wind (ENWi) probe and/or Langmuir probe were flown on three different rocket flights from equatorial station Thumba (8.5°N, 77°E), during daytime, eclipse time, and post sunset time respectively, of low solar activity period, to study ionization irregularities in the E region of the ionosphere. The spectral characteristics observed using the payloads were analyzed during the three different rocket flights. The 15 January 2010 solar eclipse event and “SOUREX 1” wind and electron density measurements confirm the validity of the wind shear theory for equatorial regions during the eclipse and post sunset periods, when electrojet is weak, using wind and electron density irregularity measurements from the same instrument (ENWi) for the first time. The spectral indices in the range of −1.2 to −1.78 and the strong wind shear due to gravity wave winds during the eclipse time as well as the post sunset time, confirm the role of neutral turbulence in the generation of irregularities in the 95–112 km altitude region. The spectral index of −2.0 to −2.7 and the presence of irregularities in the negative gradient regions establishes the role of wind‐driven gradient drift instability (GDI) in generating irregularities during the SOUREX 1 post sunset flight for altitudes below 93 km. Further, the role of gradient drift instability in triggering ionization irregularities during the daytime on 14 January 2010 is unraveled by the spectral index of −2.03 and the presence of irregularities in the positive gradient regions alone. Plain Language Summary The spectral characteristics of ionospheric plasma irregularities were studied using rocket‐borne in situ measurements of electron density and neutral winds. The Electron density and Neutral Wind probe and/or Langmuir probe were flown during different geophysical conditions from equatorial station, Thumba. The validity of the wind shear theory for equatorial region and the role of neutral turbulence in the generation of irregularities were verified by the electron density and neutral wind measurements during daytime for the 15 January 2010 solar eclipse event and post sunset time for the “SOUREX 1” experiment. The presence of irregularities in the positive electron density gradient regions alone and the spectral index value of −2.03 together confirm the role of gradient drift instability in the generation of daytime E region irregularities. The irregularities generated through wind‐driven GDI during po
ISSN:2169-9380
2169-9402
DOI:10.1029/2023JA031653