Nettsider med emneord «romsystemer»
![Bildet kan inneholde: frakk, flash fotografering, slips, halsbånd, font.](https://www.mn.uio.no/its/om/aktuelt/arrangementer/its_talks_space_may_2024.png?alt=listing)
Welcome to our open seminar series ITS Talks at the Department of Technology Systems.
ITS Talks is a series of short talks from both early career and established researchers.
![Bildet kan inneholde: atmosfære, natur, svart, organisme, font.](https://www.mn.uio.no/its/om/aktuelt/arrangementer/planetary.jpeg?alt=listing)
Welcome to our open seminar about planetary exploration with visits from NASA and CENSSS. There will be an opportunity for mingling and pizza. If you can't attend in person, please join the seminar on Zoom.
We are developing a Neutron and Gamma-ray spectrometer for deploying it on the Moon and Mars, in orbit or on a lander, to find water and other volatiles of interest for in-situ resource utilization (ISRU).
Neutron and Gamma-ray spectroscopy is a powerful tool in geophysics, and planetary science as it is the only technique that provides bulk chemical composition and elemental abundance at depth, at a range of spatial scales, which – for planetary bodies – can provide lithology, mineralogy and chemistry. Importantly, such an instrument package can identify and quantify water and other key elements relevant to assessing planetary volatile abundances and evolution, assessing radioactivity and habitability to advance sustainable human exploration.
We are developing a Neutron and Gamma-ray spectrometer for deploying it on the Moon and Mars, in orbit or on a lander, to find water and other volatiles of interest for in-situ resource utilization (ISRU).
Neutron and Gamma-ray spectroscopy is a powerful tool in geophysics, and planetary science as it is the only technique that provides bulk chemical composition and elemental abundance at depth, at a range of spatial scales, which – for planetary bodies – can provide lithology, mineralogy and chemistry. Importantly, such an instrument package can identify and quantify water and other key elements relevant to assessing planetary volatile abundances and evolution, assessing radioactivity and habitability to advance sustainable human exploration.
We are developing a Neutron and Gamma-ray spectrometer for deploying it on the Moon and Mars, in orbit or on a lander, to find water and other volatiles of interest for in-situ resource utilization (ISRU).
Neutron and Gamma-ray spectroscopy is a powerful tool in geophysics, and planetary science as it is the only technique that provides bulk chemical composition and elemental abundance at depth, at a range of spatial scales, which – for planetary bodies – can provide lithology, mineralogy and chemistry. Importantly, such an instrument package can identify and quantify water and other key elements relevant to assessing planetary volatile abundances and evolution, assessing radioactivity and habitability to advance sustainable human exploration.
![Stipendiat spiller piano på ITS](https://www.mn.uio.no/its/om/karriereintervjuer/r.jpg?alt=listing)
Romingeniøren Lewis Raymond Williams ser for seg en fremtid i Norge i all overskuelig fremtid.
Her finner du oppgaver relatert til romsystemer og sensorteknologier. Spørsmål om oppgavene rettes til kontaktpersonene som er oppgitt, alternativt kan du kontakte Anja Kohfeldt eller Torbjørn Skauli.