Coordinated magnetic observations at Macquarie Island during the STEP period

Metadata record for data from ASAC Project 2286 See the link below for public details on this project. There are two global networks associated with these data, Old and New. The old network is the CPMN (Circum Pacific Magntometer Network). See the abstract provided below, and the full paper for comp...

Full description

Bibliographic Details
Other Authors: YUMOTO, KIYOHUMI (hasPrincipalInvestigator), YUMOTO, KIYOHUMI (processor), MAEDA, GEORGE (processor), Australian Antarctic Data Centre (publisher)
Format: Dataset
Language:unknown
Published: Australian Antarctic Data Centre
Subjects:
geoscientificInformation
MAGNETIC FIELD
EARTH SCIENCE
SOLID EARTH
GEOMAGNETISM
MACQUARIE ISLAND
MAGNETIC OBSERVATIONS
SOUTHERN OCEAN
OCEAN &gt
SOUTHERN OCEAN &gt
GEOGRAPHIC REGION &gt
POLAR
Pacific
Southern Ocean
Macquarie Island
Online Access:https://researchdata.ands.org.au/coordinated-magnetic-observations-step-period/699826
https://data.aad.gov.au/metadata/records/ASAC_2286
http://nla.gov.au/nla.party-617536
Description
Summary:Metadata record for data from ASAC Project 2286 See the link below for public details on this project. There are two global networks associated with these data, Old and New. The old network is the CPMN (Circum Pacific Magntometer Network). See the abstract provided below, and the full paper for complete details. The new network is called MAGDAS (MAGnetic Data Acquisition System). Deployment began in 2005, and will be completed in 2006. 51 units will be deployed. MAGDAS will be operated for ten years by the Space Environment Research Centre (SERC). ###################################################### From the abstract of the paper 'Globally Coordinated Magnetic Observations Along 210 degree Magnetic Meridian during STEP Period' (1992) The Solar-Terrestrial Environment Laboratory (STEL), Nagoya University, is carrying out multinationally coordinated magnetic observations along the 210 degree magnetic meridian from high latitudes, through middle and low latitudes, to the equatorialregion, spanning L = 9.05-1.03, in cooperation with 14 institutes in Japan, Australia, USA, and russia during the STEP period of 1990-1997. In this paper, we introduce in detail the project of globalmagnetic observations along the 210 degree magnetic meridian, and illustrate preliminary results of power spectrum and cross correlation analysis of low-latitude pulsations at the 6 chain stations installed in 1990. The results can be summarised as follows: 1) There are two spectral peaks in the Pc 3 range. A shorter-period component in the 10-20 sec range exhibits standing field-line resonance behaviour around L = 1.58, while the longer-period component in the 20-50 sec range indicates three different characters, a standing field-line oscillation at L greater than 2.1, a second-harmonic cavity resonance oscillation in the plasmasphere, and propagating-mode waves with phase delays from lower to higher latitudes. 2) An ssc with deltaH ~ 215 nT magnitude at L = 1.22 on March 24, 1991, was found to simulate cavity-mode Pc 3 pulsations with duration less than 20 min and identical 15.5 and 25.3 mHz frequencies over the L = 1.14-2.13 low-latitude region. ###################################################### Each file contained in the dataset is compressed by gzip. Please extract these files by using a suitable archiver (e.g., gunzip command on UNIX shell). Data Format: Each file has a file name, which is composed of 7 characters with a 3 character extension. The first byte is a character 'a'. It denotes that this file is ASCII-text. The following 6 bytes denote the 'YYMMDD'. The 3 character extension should be a 3 character abbreviation of a station name (MCQ). Each file consists of 86400 lines. Each line consist of 9 values, each value is separated by a space (YYYY MM DD hh mm ss H-comp D-comp Z-comp). YYYY is the year, MM is the month of the year, DD is the day of the month, hh is the hour of the day, mm is the minute of the hour, ss is the second of the minute. H-comp is the magnetic data of the North-South direction, D-comp is the magnetic data of the East-West direction, Z-comp is the magnetic data of the vertical direction, the unit of each component is the nanotesla (nT). There is a time lag associated with this dataset: 1. MCQ data have a time lag up to 12 hours from 23:30 UT April 3, 2001 to 18:15 UT April 19, 2001. 2. MCQ data have a time lag up to 24 hours from 18:15 UT April 19, 2001 to July 4, 2002. 3. MCQ data have a time lag up to 1 minute from July 5, 2002 until now.

Similar Items