Geomagnetic
Type of resources
Keywords
Publication year
Topics
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Casey (CSY). Files names delineate the observatory, observation year, type of form and folder. e.g. CSY2000OBS_19 (CSY: Casey Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Kakadu (KDU). Files names delineate the observatory, observation year, type of form and folder. e.g. KDU2000OBS_19 (KDU: Kakadu Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Charters Towers (CTA). Files names delineate the observatory, observation year, type of form and folder. e.g. CTA2000OBS_19 (CTA: Charters Towers Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Macquarie Island (MCQ). Files names delineate the observatory, observation year, type of form and folder. e.g. MCQ2000OBS_19 (MCQ: Macquarie Island Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Canberra (CNB). Files names delineate the observatory, observation year, type of form and folder. e.g. CNB2000OBS_19 (CNB: Canberra Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Alice Springs (ASP). Files names delineate the observatory, observation year, type of form and folder. e.g. ASP2000OBS_19 (ASP: Alice Springs Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Gnangara (GNA). Files names delineate the observatory, observation year, type of form and folder. e.g. GNA2000OBS_19 (GNA: Gnangara Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatories. Files names delineate the observatory, observation year, type of form and folder. e.g. CTA2000OBS_19 (CTA: Charters Towers Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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This dataset contains scanned geomagnetic absolute observation records from Australian Geomagnetic Observatory: Learmonth (LRM). Files names delineate the observatory, observation year, type of form and folder. e.g. LRM2000OBS_19 (LRM: Learmonth Observatory)(2000: Year)(OBS: Observation Form)(19: Folder). Files are stored as station and year based PDF and individual tiff files per page.
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Geoscience Australia’s geomagnetic observatory network covers one-eighth of the Earth. The first Australian geomagnetic observatory was established in Hobart in 1840. This almost continuous 180-year period of magnetic-field monitoring provides an invaluable dataset for scientific research. Geomagnetic storms induce electric currents in the Earth that feed into power lines through substation neutral earthing, causing instabilities and sometimes blackouts in electricity transmission systems. Power outages to business, financial and industrial centres cause major disruption and potentially billions of dollars of economic losses. The intensity of geomagnetically induced currents is closely associated with geological structure. We modelled peak geoelectric field values induced by the 1989 Québec storm for south-eastern Australian states using a scenario analysis. Modelling shows the 3D subsurface geology had a significant impact on the magnitude of induced geoelectric fields, with more than three orders of magnitude difference across conductive basins to resistive cratonic regions in south-eastern Australia. We also estimated geoelectrically induced voltages in the Australian high-voltage power transmission lines by using the scenario analysis results. The geoelectrically induced voltages may exhibit local maxima in the transmission lines at differing times during the course of a magnetic storm depending on the line’s spatial orientation and length with respect to the time-varying inducing field. Real-time forecasting of geomagnetic hazards using Geoscience Australia’s geomagnetic observatory network and magnetotelluric data from the Australian Lithospheric Architecture Magnetotelluric Project (AusLAMP) helps develop national strategies and risk assessment procedures to mitigate space weather hazard. This Abstract was submitted/presented to the 2023 Australian Exploration Geoscience Conference 13-18 Mar (https://2023.aegc.com.au/)