Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica

The Project was aimed at experimentally investigating the possibility of exciting the ionospheric interlayer duct channel using powerful radiation from the heaters HAARP (Alaska, USA) and EISCAT (Troms , Norway), as well as from HF broadcasting stations RWM (Moscow, Russia) and CHU (Ottawa, Canada)....

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Bibliographic Details
Main Author: Yampolski, Yuri M
Other Authors: UKRAINIAN ACADEMY OF SCIENCES KHARKOV INST OF RADIO ASTRONOMY
Format: Text
Language:English
Published: 2015
Subjects:
Radiofrequency Wave Propagation
*IONOSPHERIC PROPAGATION
ANTARCTIC REGIONS
HIGH FREQUENCY
HIGH TEMPERATURE
TRANSMITTANCE
UKRAINE
WAVEGUIDES
MICTROSTRUCTURAL CHARACTERIZATION
PE61102F
Antarctic
The Antarctic
Canada
Norway
Antarc*
Antarctica
EISCAT
Alaska
Troms
Online Access:http://www.dtic.mil/docs/citations/ADA621687
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA621687
id ftdtic:ADA621687
record_format openpolar
spelling ftdtic:ADA621687 2023-05-15T13:36:48+02:00 Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica Yampolski, Yuri M UKRAINIAN ACADEMY OF SCIENCES KHARKOV INST OF RADIO ASTRONOMY 2015-04-17 text/html http://www.dtic.mil/docs/citations/ADA621687 http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA621687 en eng http://www.dtic.mil/docs/citations/ADA621687 Approved for public release; distribution is unlimited. DTIC Radiofrequency Wave Propagation *IONOSPHERIC PROPAGATION ANTARCTIC REGIONS HIGH FREQUENCY HIGH TEMPERATURE TRANSMITTANCE UKRAINE WAVEGUIDES MICTROSTRUCTURAL CHARACTERIZATION PE61102F Text 2015 ftdtic 2016-02-24T18:45:56Z The Project was aimed at experimentally investigating the possibility of exciting the ionospheric interlayer duct channel using powerful radiation from the heaters HAARP (Alaska, USA) and EISCAT (Troms , Norway), as well as from HF broadcasting stations RWM (Moscow, Russia) and CHU (Ottawa, Canada). Major attention was paid to analyzing the possibility of exciting the interlayer ionospheric waveguide which support super-long range HF propagation with a small amount of attenuation. To monitor the radiation, a compact-size receiving complex was developed which is capable of measuring the signal intensity and spectral characteristics in an off-line automatic mode. Two facilities have been constructed in the course of the Project. One was deployed in Ukraine at the Low-frequency Observatory of the IRA NASU (Martova village, Kharkov region) in 2012, while another was installed at the Ukrainian Antarctic station Akademik Vernadsky in the Antarctic in 2013. In all, about 100 hours were spent observing the radiation from the heaters (primarily EISCAT) and more than 3000 hours monitoring signals from broadcast radios. In a number of cases the signal strengthening was detected for the super-long range radio links (Alaska-Antarctica and Northern Scandinavia-Antarctica) which effect can be regarded as a result of the waveguide propagation. A pioneering feature of the developed theoretical model is accounting for the regular ionospheric refraction. The aspect-sensitive contours in the ionosphere and on the Earth s surface have been calculated for all the transmitting and receiving sites for the current ionospheric conditions. A software package was developed for the remote control of the receiving complexes and visual representation of the measurement results in real-time over the internet. The most productive experiments were performed during the BRIOCHE heating campaign in June 2014. The detailed description of this campaign is included in Chapter 4 of the Final Report. The original document contains color images. Text Antarc* Antarctic Antarctica EISCAT Alaska Troms Defense Technical Information Center: DTIC Technical Reports database Antarctic The Antarctic Canada Norway
institution Open Polar
collection Defense Technical Information Center: DTIC Technical Reports database
op_collection_id ftdtic
language English
topic Radiofrequency Wave Propagation
*IONOSPHERIC PROPAGATION
ANTARCTIC REGIONS
HIGH FREQUENCY
HIGH TEMPERATURE
TRANSMITTANCE
UKRAINE
WAVEGUIDES
MICTROSTRUCTURAL CHARACTERIZATION
PE61102F
spellingShingle Radiofrequency Wave Propagation
*IONOSPHERIC PROPAGATION
ANTARCTIC REGIONS
HIGH FREQUENCY
HIGH TEMPERATURE
TRANSMITTANCE
UKRAINE
WAVEGUIDES
MICTROSTRUCTURAL CHARACTERIZATION
PE61102F
Yampolski, Yuri M
Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica
topic_facet Radiofrequency Wave Propagation
*IONOSPHERIC PROPAGATION
ANTARCTIC REGIONS
HIGH FREQUENCY
HIGH TEMPERATURE
TRANSMITTANCE
UKRAINE
WAVEGUIDES
MICTROSTRUCTURAL CHARACTERIZATION
PE61102F
description The Project was aimed at experimentally investigating the possibility of exciting the ionospheric interlayer duct channel using powerful radiation from the heaters HAARP (Alaska, USA) and EISCAT (Troms , Norway), as well as from HF broadcasting stations RWM (Moscow, Russia) and CHU (Ottawa, Canada). Major attention was paid to analyzing the possibility of exciting the interlayer ionospheric waveguide which support super-long range HF propagation with a small amount of attenuation. To monitor the radiation, a compact-size receiving complex was developed which is capable of measuring the signal intensity and spectral characteristics in an off-line automatic mode. Two facilities have been constructed in the course of the Project. One was deployed in Ukraine at the Low-frequency Observatory of the IRA NASU (Martova village, Kharkov region) in 2012, while another was installed at the Ukrainian Antarctic station Akademik Vernadsky in the Antarctic in 2013. In all, about 100 hours were spent observing the radiation from the heaters (primarily EISCAT) and more than 3000 hours monitoring signals from broadcast radios. In a number of cases the signal strengthening was detected for the super-long range radio links (Alaska-Antarctica and Northern Scandinavia-Antarctica) which effect can be regarded as a result of the waveguide propagation. A pioneering feature of the developed theoretical model is accounting for the regular ionospheric refraction. The aspect-sensitive contours in the ionosphere and on the Earth s surface have been calculated for all the transmitting and receiving sites for the current ionospheric conditions. A software package was developed for the remote control of the receiving complexes and visual representation of the measurement results in real-time over the internet. The most productive experiments were performed during the BRIOCHE heating campaign in June 2014. The detailed description of this campaign is included in Chapter 4 of the Final Report. The original document contains color images.
author2 UKRAINIAN ACADEMY OF SCIENCES KHARKOV INST OF RADIO ASTRONOMY
format Text
author Yampolski, Yuri M
author_facet Yampolski, Yuri M
author_sort Yampolski, Yuri M
title Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica
title_short Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica
title_full Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica
title_fullStr Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica
title_full_unstemmed Characterization of Ionosphere Waveguide Propagation by Monitoring HAARP HF Transmissions in Antarctica
title_sort characterization of ionosphere waveguide propagation by monitoring haarp hf transmissions in antarctica
publishDate 2015
url http://www.dtic.mil/docs/citations/ADA621687
http://oai.dtic.mil/oai/oai?&verb=getRecord&metadataPrefix=html&identifier=ADA621687
geographic Antarctic
The Antarctic
Canada
Norway
geographic_facet Antarctic
The Antarctic
Canada
Norway
genre Antarc*
Antarctic
Antarctica
EISCAT
Alaska
Troms
genre_facet Antarc*
Antarctic
Antarctica
EISCAT
Alaska
Troms
op_source DTIC
op_relation http://www.dtic.mil/docs/citations/ADA621687
op_rights Approved for public release; distribution is unlimited.
_version_ 1766084384640729088

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