Anna Kelbert, Ph.D. (Former Employee)
Science and Products
Filter Total Items: 28
Simultaneous observations of geoelectric and geomagnetic fields produced by magnetospheric ULF waves Simultaneous observations of geoelectric and geomagnetic fields produced by magnetospheric ULF waves
Geomagnetic perturbations (BGEO) related to magnetospheric ultralow frequency (ULF) waves induce electric fields within the conductive Earth—geoelectric fields (EGEO)—that in turn drive geomagnetically induced currents. Though numerous past studies have examined ULF wave BGEO from a space weather perspective, few studies have linked ULF waves with EGEO. Using recently available...
Authors
M. D. Hartinger, X. Shih, G. Lucas, Benjamin Murphy, Anna Kelbert, J.B.H. Baker, E. Rigler, Paul Bedrosian
Geomagnetism Program research plan, 2020–2024 Geomagnetism Program research plan, 2020–2024
The Geomagnetism Program of the U.S. Geological Survey (USGS) monitors geomagnetic field variation through operation of a network of observatories across the United States and its territories, and it pursues scientific research needed to estimate and assess geomagnetic and geoelectric hazards. Over the next five years (2020–2024 inclusive) and in support of national and agency priorities
Authors
Jeffrey Love, Anna Kelbert, Benjamin S. Murphy, E. Rigler, Kristen Lewis
Modified GIC estimation using 3-D Earth conductivity Modified GIC estimation using 3-D Earth conductivity
Geomagnetically induced currents (GICs) are quasi-direct current (DC) electric currents that flow in technological conductors during geomagnetic storms. Extreme GICs are hazardous to man-made infrastructure. GICs enter and exit the technological systems, such as the electric power grid, at grounding points, and their magnitudes depend on the currents that flow underground. They are...
Authors
Anna Kelbert, Greg Lucas
A 100-year geoelectric hazard analysis for the U.S. high-voltage power grid A 100-year geoelectric hazard analysis for the U.S. high-voltage power grid
A once-per-century geoelectric hazard map is created for the United States high-voltage power grid. A statistical extrapolation from 31 years of magnetic field measurements is made by identifying 84 geomagnetic storms with the Kp and Dst indices. Data from 24 geomagnetic observatories, 1079 magnetotelluric survey sites, and 17,258 transmission lines are utilized to perform a geoelectric...
Authors
Greg M. Lucas, Jeffrey Love, Anna Kelbert, Paul Bedrosian, E. Rigler
Empirical estimation of natural geoelectric hazards Empirical estimation of natural geoelectric hazards
Geoelectric field time series can be estimated by convolving estimates of Earth‐surface impedance, such as those obtained from magnetotelluric survey measurements, with historical records of geomagnetic variation obtained at magnetic observatories. This straightforward procedure permits the mapping of geoelectric field variation during magnetic storms. Statistical analysis of the time...
Authors
Jeffrey Love, Paul Bedrosian, Anna Kelbert, Greg Lucas
The first 3D conductivity model of the contiguous US: Reflections on geologic structure and application to induction hazards The first 3D conductivity model of the contiguous US: Reflections on geologic structure and application to induction hazards
Estimation of ground level geoelectric fields has been identified by the National Space Weather Action Plan as a key component of assessment and mitigation of space weather impacts on critical infrastructure. Estimates of spatially and temporally variable electric fields are used to generate statistically based hazard maps and show promise toward monitoring and responding to geomagnetic
Authors
Anna Kelbert, Paul Bedrosian, Benjamin S. Murphy
Data sharing in magnetotellurics Data sharing in magnetotellurics
Here, we introduce the first openly available comprehensive database of magnetotelluric (MT) and related electromagnetic data that we developed and matured over the past decade, explain how to access the data, and describe the challenges that had to be overcome to make MT data sharing possible. The database is a helpful tool for MT scientists, and is widely used by the international...
Authors
Anna Kelbert, Svetlana Erofeeva, Chad Trabant, Rich Karstens, Mickey Van Fossen
Extreme‐value geoelectric amplitude and polarization across the northeast United States Extreme‐value geoelectric amplitude and polarization across the northeast United States
Maps are presented of extreme‐value geoelectric field amplitude and horizontal polarization for the Northeast United States. These maps are derived from geoelectric time series calculated for sites across the Northeast by frequency‐domain multiplication (time‐domain convolution) of 172 magnetotelluric impedance tensors, acquired during a survey, with decades‐long, 1‐min resolution time...
Authors
Jeffrey Love, Greg Lucas, Paul Bedrosian, Anna Kelbert
Geoelectric hazard maps for the Pacific Northwest Geoelectric hazard maps for the Pacific Northwest
Maps of extreme value, horizontal component geoelectric field amplitude are constructed for the Pacific Northwest United States (and parts of neighboring Canada). Multidecade long geoelectric field time series are calculated by convolving Earth surface impedance tensors from 71 discrete magnetotelluric survey sites across the region with historical 1‐min (2‐min Nyquist) geomagnetic...
Authors
Jeffrey Love, Greg Lucas, Anna Kelbert, Paul Bedrosian
On the feasibility of real-time mapping of the geoelectric field across North America On the feasibility of real-time mapping of the geoelectric field across North America
A review is given of the present feasibility for accurately mapping geoelectric fields across North America in near-realtime by modeling geomagnetic monitoring and magnetotelluric survey data. Should this capability be successfully developed, it could inform utility companies of magnetic-storm interference on electric-power-grid systems. That real-time mapping of geoelectric fields is a...
Authors
Jeffrey Love, E. Rigler, Anna Kelbert, Carol Finn, Paul Bedrosian, Christopher Balch
Calculation of voltages in electric power transmission lines during historic geomagnetic storms: An investigation using realistic earth impedances Calculation of voltages in electric power transmission lines during historic geomagnetic storms: An investigation using realistic earth impedances
Commonly, one-dimensional (1-D) Earth impedances have been used to calculate the voltages induced across electric power transmission lines during geomagnetic storms under the assumption that much of the three-dimensional structure of the Earth gets smoothed when integrating along power transmission lines. We calculate the voltage across power transmission lines in the mid-Atlantic region...
Authors
Greg Lucas, Jeffrey Love, Anna Kelbert
Geoelectric hazard maps for the Mid-Atlantic United States: 100 year extreme values and the 1989 magnetic storm Geoelectric hazard maps for the Mid-Atlantic United States: 100 year extreme values and the 1989 magnetic storm
Maps of extreme value geoelectric field amplitude are constructed for the Mid‐Atlantic United States, a region with high population density and critically important power grid infrastructure. Geoelectric field time series for the years 1983–2014 are estimated by convolving Earth surface impedances obtained from 61 magnetotelluric survey sites across the Mid‐Atlantic with historical 1 min...
Authors
Jeffrey Love, Greg Lucas, Anna Kelbert, Paul Bedrosian
Science and Products
Filter Total Items: 28
Simultaneous observations of geoelectric and geomagnetic fields produced by magnetospheric ULF waves Simultaneous observations of geoelectric and geomagnetic fields produced by magnetospheric ULF waves
Geomagnetic perturbations (BGEO) related to magnetospheric ultralow frequency (ULF) waves induce electric fields within the conductive Earth—geoelectric fields (EGEO)—that in turn drive geomagnetically induced currents. Though numerous past studies have examined ULF wave BGEO from a space weather perspective, few studies have linked ULF waves with EGEO. Using recently available...
Authors
M. D. Hartinger, X. Shih, G. Lucas, Benjamin Murphy, Anna Kelbert, J.B.H. Baker, E. Rigler, Paul Bedrosian
Geomagnetism Program research plan, 2020–2024 Geomagnetism Program research plan, 2020–2024
The Geomagnetism Program of the U.S. Geological Survey (USGS) monitors geomagnetic field variation through operation of a network of observatories across the United States and its territories, and it pursues scientific research needed to estimate and assess geomagnetic and geoelectric hazards. Over the next five years (2020–2024 inclusive) and in support of national and agency priorities
Authors
Jeffrey Love, Anna Kelbert, Benjamin S. Murphy, E. Rigler, Kristen Lewis
Modified GIC estimation using 3-D Earth conductivity Modified GIC estimation using 3-D Earth conductivity
Geomagnetically induced currents (GICs) are quasi-direct current (DC) electric currents that flow in technological conductors during geomagnetic storms. Extreme GICs are hazardous to man-made infrastructure. GICs enter and exit the technological systems, such as the electric power grid, at grounding points, and their magnitudes depend on the currents that flow underground. They are...
Authors
Anna Kelbert, Greg Lucas
A 100-year geoelectric hazard analysis for the U.S. high-voltage power grid A 100-year geoelectric hazard analysis for the U.S. high-voltage power grid
A once-per-century geoelectric hazard map is created for the United States high-voltage power grid. A statistical extrapolation from 31 years of magnetic field measurements is made by identifying 84 geomagnetic storms with the Kp and Dst indices. Data from 24 geomagnetic observatories, 1079 magnetotelluric survey sites, and 17,258 transmission lines are utilized to perform a geoelectric...
Authors
Greg M. Lucas, Jeffrey Love, Anna Kelbert, Paul Bedrosian, E. Rigler
Empirical estimation of natural geoelectric hazards Empirical estimation of natural geoelectric hazards
Geoelectric field time series can be estimated by convolving estimates of Earth‐surface impedance, such as those obtained from magnetotelluric survey measurements, with historical records of geomagnetic variation obtained at magnetic observatories. This straightforward procedure permits the mapping of geoelectric field variation during magnetic storms. Statistical analysis of the time...
Authors
Jeffrey Love, Paul Bedrosian, Anna Kelbert, Greg Lucas
The first 3D conductivity model of the contiguous US: Reflections on geologic structure and application to induction hazards The first 3D conductivity model of the contiguous US: Reflections on geologic structure and application to induction hazards
Estimation of ground level geoelectric fields has been identified by the National Space Weather Action Plan as a key component of assessment and mitigation of space weather impacts on critical infrastructure. Estimates of spatially and temporally variable electric fields are used to generate statistically based hazard maps and show promise toward monitoring and responding to geomagnetic
Authors
Anna Kelbert, Paul Bedrosian, Benjamin S. Murphy
Data sharing in magnetotellurics Data sharing in magnetotellurics
Here, we introduce the first openly available comprehensive database of magnetotelluric (MT) and related electromagnetic data that we developed and matured over the past decade, explain how to access the data, and describe the challenges that had to be overcome to make MT data sharing possible. The database is a helpful tool for MT scientists, and is widely used by the international...
Authors
Anna Kelbert, Svetlana Erofeeva, Chad Trabant, Rich Karstens, Mickey Van Fossen
Extreme‐value geoelectric amplitude and polarization across the northeast United States Extreme‐value geoelectric amplitude and polarization across the northeast United States
Maps are presented of extreme‐value geoelectric field amplitude and horizontal polarization for the Northeast United States. These maps are derived from geoelectric time series calculated for sites across the Northeast by frequency‐domain multiplication (time‐domain convolution) of 172 magnetotelluric impedance tensors, acquired during a survey, with decades‐long, 1‐min resolution time...
Authors
Jeffrey Love, Greg Lucas, Paul Bedrosian, Anna Kelbert
Geoelectric hazard maps for the Pacific Northwest Geoelectric hazard maps for the Pacific Northwest
Maps of extreme value, horizontal component geoelectric field amplitude are constructed for the Pacific Northwest United States (and parts of neighboring Canada). Multidecade long geoelectric field time series are calculated by convolving Earth surface impedance tensors from 71 discrete magnetotelluric survey sites across the region with historical 1‐min (2‐min Nyquist) geomagnetic...
Authors
Jeffrey Love, Greg Lucas, Anna Kelbert, Paul Bedrosian
On the feasibility of real-time mapping of the geoelectric field across North America On the feasibility of real-time mapping of the geoelectric field across North America
A review is given of the present feasibility for accurately mapping geoelectric fields across North America in near-realtime by modeling geomagnetic monitoring and magnetotelluric survey data. Should this capability be successfully developed, it could inform utility companies of magnetic-storm interference on electric-power-grid systems. That real-time mapping of geoelectric fields is a...
Authors
Jeffrey Love, E. Rigler, Anna Kelbert, Carol Finn, Paul Bedrosian, Christopher Balch
Calculation of voltages in electric power transmission lines during historic geomagnetic storms: An investigation using realistic earth impedances Calculation of voltages in electric power transmission lines during historic geomagnetic storms: An investigation using realistic earth impedances
Commonly, one-dimensional (1-D) Earth impedances have been used to calculate the voltages induced across electric power transmission lines during geomagnetic storms under the assumption that much of the three-dimensional structure of the Earth gets smoothed when integrating along power transmission lines. We calculate the voltage across power transmission lines in the mid-Atlantic region...
Authors
Greg Lucas, Jeffrey Love, Anna Kelbert
Geoelectric hazard maps for the Mid-Atlantic United States: 100 year extreme values and the 1989 magnetic storm Geoelectric hazard maps for the Mid-Atlantic United States: 100 year extreme values and the 1989 magnetic storm
Maps of extreme value geoelectric field amplitude are constructed for the Mid‐Atlantic United States, a region with high population density and critically important power grid infrastructure. Geoelectric field time series for the years 1983–2014 are estimated by convolving Earth surface impedances obtained from 61 magnetotelluric survey sites across the Mid‐Atlantic with historical 1 min...
Authors
Jeffrey Love, Greg Lucas, Anna Kelbert, Paul Bedrosian