The discovery of phosphine gas caused a great media and scientific sensation in the past few days, as it indicates the existence of a possible biological life on Venus.
And 22 scientists and researchers in the astrophysics and space sciences revealed this great event in the scientific journal “Nature”, and among that constellation of scientists, the female character prevailed over the scientific team and their leader, Professor Jane Graves.
Their CVs and their professional lives are a mixture of honors and many distinguished scientific discoveries, and it is difficult to talk about all of them due to the multiplicity of their achievements, and we show you 3 of the most prominent researchers participating in this scientific discovery.
Jane Graves worked at Cardiff University since 2015, and before that at the University of St Andrews, and also worked at the Royal Observatory in Edinburgh, and she taught at the University of Massachusetts and Queen Mary University in London, and her most important scientific discoveries were in 2017, with her prominent role in the first discovery My Earth of Molecules Around Enceladus, and before it in 2011 was the first revelation of Pluto’s high atmosphere, Jane’s involvement in astrophysics, and she worked extensively to empower women in academic sciences.
Greaves has won 5 scientific awards, including the Fred Hoyle Medal in 2017, and has won 3 fellowships between the University of St Andrews as a fellow in astrophysics and a fellow at Norman Lowell, and a postdoctoral fellow since 1990.
Jane leads several research teams as co-leader or research director, as well as overseeing the teaching of several academic years specializing in astrophysics.
Basically, Jane observes the processes of planetary formation around young stars, and communications in the solar system, and she has a background of observing “debris” resulting from collision of comets around stars such as the sun, and she was the first to photograph the debris belt around a star similar to the sun, along with her observation of Pluto and the icy moons On Jupiter, Saturn and all possible bodies they are harboring life, and they analyze and interpret that data and their impact that could help discover possible life beyond Earth.
Seger was born in 1941 in Toronto, Canada, and graduated from the Jarvis University Institute, one of the most prominent schools of science education, and dreamed of a career in astrophysics since high school, unlike her father who wished her to be a doctor or a lawyer, believing that it was her best profession, but she fulfilled her dream in physics. At the University of Toronto, and she lives with her husband, Charles Darrow, and their two children, in Massachusetts.
She is Professor of Planetary Science, Professor of Physics, and Professor of Aeronautics and Astronautics at the Massachusetts Institute of Technology. Her previous research is credited with laying the groundwork for exoplanet atmospheres, as her current research focuses on exoplanet atmospheres and future searches for signs of life through biological gases in the planets’ atmospheres.
Professor Seger participates in a number of searches for exoplanets in space, as deputy scientific director of the MIT-led NASA mission, and as leader of the Stard Renzovy Mission (the space mission concerned with developing technology to discover direct imaging and characterization of Earth’s isotopes, meaning planets likely to harbor life) .
Seager is one of the first scientists to support the emergence of new planets in the mid-1990s, the one whose discoveries were questioned at that time by many scientists due to the lack of research evidence at the time, and with time her vision was validated with the encouragement of the doctoral supervisor Dimitar Sasilov, in addition to her benefiting from the support of the late John Bacall , And he is one of the most important scientists in space and astronomy.
Prior to joining the Massachusetts Institute of Technology in 2007, Professor Seger spent 4 years on the Carnegie Washington research team, and preceded her 3 years at the Institute for Advanced Study in Princeton, New Jersey. She holds a PhD from Harvard University and a PhD from the University of Toronto.
Clara Souza Silva
Clara focuses heavily on phosphine gas, because she considers it one of the most important gases that indicate the presence of signs of life, and uses the high-resolution Spectroscopy Telescope in her discoveries.
Clara coordinates the educational campaign for a space mission, and works as the director of science research and mentoring program at the Massachusetts Institute, and helps children to do astronomical research. Besides being a fellow of the institute, she is preparing to transfer to Harvard University.
Clara takes pride in her fun social activities, devotes a lot of time to her, shows it on her website, defines herself as a political activist as well as an astronomer.