VLF Technique and Science in India
- Member, Governing Body, Indian Centre for Space Physics, Kolkata (India)
Since IGY period (1957-58), natural and artificially produced Very Low Frequency (VLF) electromagnetic radiations are being recorded at large number of ground stations and on board satellites to study various wave-plasma interactive phenomena. The terrestrial propagation of these VLF radio waves are primarily enabled through the earth ionosphere wave guide (EIWG) system to long horizontal distances around the globe and ducted along the geomagnetic field lines into the conjugate hemisphere through the ionosphere-plasmasphere-magnetosphere routes. The time frequency spectra indicate presence of dispersion and various cut-off frequencies providing several types of received signals like whistlers, chorus, tweeks, hiss, hisslers etc., which can be heard on an earphone with distinguishing audio structures. While the VLF technique has been a very effective tool for studying middle and high latitude phenomena, the importance of various anomalous characteristics over the Indian low latitude stations provide potentially new challenges for their scientific interpretation and modelling. The ducted and non-ducted propagation, low latitude TRIMPI/TLE effects, D-region ionisation perturbations due to solar and stellar x- and {gamma} ray emissions and detecting precursors of seismic activities are a few problems which will gain from low latitude studies. Since the conjugate points of Indian stations lie over the Indian oceanic region, the VLF propagation effects would be relatively noise free to observe rare and new phenomena requiring better SNR to detect such changes. The VLF signals emanating from the active seismic zones would require high sensitivity of the system and suitable network of transmitting and receiving stations. Results obtained on whistlers and related studies from a number of Indian stations covering geomagnetic latitude range between 13-24 deg. N are mentioned and reviewed in the background of theoretical understanding of the lightning return stroke signal elements, VLF propagation through cold plasma, ionospheric wave guide mode, electron precipitation due to cyclotron resonance and production of ionisation in the D-region due to solar/stellar UV/X/{gamma}-rays. Further use of the VLF technique in terms of improving both observational data for real time monitoring/modelling of geophysical phenomena and exploring space weather conditions are considered as part of a future Indian programme.
- OSTI ID:
- 21428653
- Journal Information:
- AIP Conference Proceedings, Vol. 1286, Issue 1; Conference: 1. international conference on science with very low frequency radio waves: Theory and observations, Kolkata (India), 13-18 Mar 2010; Other Information: DOI: 10.1063/1.3512897; (c) 2010 American Institute of Physics; ISSN 0094-243X
- Country of Publication:
- United States
- Language:
- English
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Related Subjects
COLD PLASMA
COMPUTERIZED SIMULATION
CYCLOTRON RESONANCE
D REGION
DISTURBANCES
ELECTRON PRECIPITATION
GAMMA RADIATION
GEOMAGNETIC CONJUGACY
GEOMAGNETIC FIELD
INDIA
IONIZATION
LIGHTNING
MONITORING
PHOTON EMISSION
PLASMASPHERE
PRECURSOR
SEISMIC WAVES
SENSITIVITY
SIGNALS
WHISTLERS
ASIA
CHARGED-PARTICLE PRECIPITATION
DEVELOPING COUNTRIES
EARTH ATMOSPHERE
EARTH MAGNETOSPHERE
ELECTRIC DISCHARGES
ELECTROMAGNETIC RADIATION
EMISSION
IONIZING RADIATIONS
IONOSPHERE
MAGNETIC FIELDS
NOISE
PLASMA
RADIATIONS
RADIO NOISE
RADIOWAVE RADIATION
RESONANCE
SIMULATION