Dr. Nadia Imtiaz | Space Weather | Women Researcher Award
Pakistan Institute of Nuclear Science and Technology | Pakistan
AUTHOR PROFILE
EARLY ACADEMIC PURSUITS
Dr. Nadia Imtiaz's academic journey began with a keen interest in physics and space sciences. She earned her M.Sc. in Physics from Quaid-i-Azam University, Pakistan, followed by an MS in Medical Physics from the Pakistan Institute of Engineering and Applied Sciences. Her passion for space physics led her to pursue a PhD in Space Physics at the University of Alberta, Canada, where she specialized in modeling electromagnetic perturbations in the ionosphere induced by seismic events.
PROFESSIONAL ENDEAVORS
Dr. Nadia Imtiaz has an impressive career focused on Space Weather and Space Plasma Physics. She has been serving as a Principal Scientist since December 2015, heading the Space Plasma Physics Group. Her work involves leading research, publishing scientific papers, and training manpower in the field of space plasma physics. She has conducted pioneering research on PIC modeling of satellite-plasma interactions, including simulations of plasma environments around satellites in low Earth orbit. Her contributions include significant projects like the automation of Hall Effect Measurement setups using MATLAB for 3D magnetic field mapping.
CONTRIBUTIONS AND RESEARCH FOCUS
Dr. Nadia Imtiaz's primary research focus is on space weather, specifically on the impact of space weather events on Earth's environment, particularly the low-latitude ionosphere. Her work involves analyzing data from space-based observatories and ground-based instruments to understand solar activity, solar wind, and geomagnetic conditions. She is involved in data assimilation by combining observational data with model simulations to improve space weather forecasts. Her research findings are published in scientific journals, contributing to the knowledge and understanding of space weather phenomena.
IMPACT AND INFLUENCE
Dr. Nadia Imtiaz's research has had a significant impact on the field of Space Weather. Her PIC modeling of satellite-plasma interactions has provided insights into the complex interactions between satellites and the ionospheric plasma. Her research outputs have been validated through in-situ measurements by satellites, contributing to accurate modeling techniques. Her work on space weather effects on the low-latitude ionosphere has been instrumental in identifying patterns and anomalies using data visualization techniques.
ACADEMIC CITES
Dr. Nadia Imtiaz's work is highly cited in the field of space physics and space weather. Her publications have contributed to advancing the understanding of plasma physics and its interaction with satellites. She has received awards and recognition for her poster presentations and contributions to international workshops and conferences focused on space weather research.
LEGACY AND FUTURE CONTRIBUTIONS
Dr. Nadia Imtiaz's legacy lies in her dedication to advancing the field of space plasma physics and space weather. Her future contributions will continue to focus on improving the accuracy of space weather forecasts through data assimilation and advanced modeling techniques. She will play a key role in training the next generation of scientists and researchers in this critical field.
SPACE WEATHER
Dr. Nadia Imtiaz's research on SPACE WEATHER encompasses various aspects such as solar activity, solar wind, geomagnetic conditions, and their impact on Earth's environment. Her work involves analyzing space weather data to understand its effects on satellite-plasma interactions and the low-latitude ionosphere. Her findings contribute to improving space weather forecasting capabilities, essential for satellite operations and telecommunications.
NOTABLE PUBLICATION
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Citation: 03 Year: 2023
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Citation: 01 Year: 2022
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Impact of the intense geomagnetic storm of August 2018 on the equatorial and low latitude ionosphere
Citation: 05 Year: 2021 -
Citation: 04 Year: 2021
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Citation: 03 Year: 2020
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Shocks in an electronegative plasma with Boltzmann negative ions and κ-distributed trapped electrons
Citation: 10 Year: 2019