Opportunity Overview
Our research is focussed on improving our understanding of how stars, disks, and planets form and evolve, and of the physical processes that occur deep in the atmospheres and interiors of stars and exoplanets. We intend to achieve this goal by developing advanced theoretical models and using a combination of state-of-the art computer modelling and observations obtained from cutting-edge facilities.
Stars and planets owe their origins to the gravitational collapse of molecular clouds, resulting in the formation of objects with a wide range of masses. As stars form, they are surrounded by discs of material, which feed the star with mass and are the birthplace of planets. How discs form and evolve, what determines their properties, and how accretion and planet formation proceeds, remain major unsolved questions. Combining different observational methods at various wavelengths and sophisticated computer modelling that include complex physics, we will study in depth all steps, starting from the properties of molecular clouds, that lead to the formation of stars, discs and planets.
After stars and sub-stellar objects form, their further evolution is characterised by complex physical processes, such as turbulent convection and magnetism, that shape their internal structure and their observational properties. Exquisite observational data are now available, with for example asteroseismology providing important constrainsts on the internal structure of stars. We will develop theoretical models and use sophisticated numerical models to improve our understanding of stellar interiors, atmospheres, magnetism, and rotation and to explain various observational puzzles.
We will also develop new observational techniques, carry out new observations, and build new theoretical models for detecting, characterising, and understanding exoplanets. We will also develop original strategies to optimise the detection of small (Earth-sized) exoplanets by understanding and learning how to see...
Stars and planets owe their origins to the gravitational collapse of molecular clouds, resulting in the formation of objects with a wide range of masses. As stars form, they are surrounded by discs of material, which feed the star with mass and are the birthplace of planets. How discs form and evolve, what determines their properties, and how accretion and planet formation proceeds, remain major unsolved questions. Combining different observational methods at various wavelengths and sophisticated computer modelling that include complex physics, we will study in depth all steps, starting from the properties of molecular clouds, that lead to the formation of stars, discs and planets.
After stars and sub-stellar objects form, their further evolution is characterised by complex physical processes, such as turbulent convection and magnetism, that shape their internal structure and their observational properties. Exquisite observational data are now available, with for example asteroseismology providing important constrainsts on the internal structure of stars. We will develop theoretical models and use sophisticated numerical models to improve our understanding of stellar interiors, atmospheres, magnetism, and rotation and to explain various observational puzzles.
We will also develop new observational techniques, carry out new observations, and build new theoretical models for detecting, characterising, and understanding exoplanets. We will also develop original strategies to optimise the detection of small (Earth-sized) exoplanets by understanding and learning how to see...
This is one of 36 active United Kingdom Schools and Universities opportunities most of your competitors will never see.
Your competitors are watching the same crowded contracts everyone else is. Track this opportunity and every one like it worldwide, set deadline alerts, and win where they aren’t. Free for 14 days, no card.
Start FreeSolicitation Details
| Issuing agency | Stfc |
|---|---|
| Country | United Kingdom |
| Category | Schools and Universities |
| Response due | Not specified / rolling |
| Status | Active - open for responses |
| Official source | View original notice |
United Kingdom market overview →Schools and Universities tenders in United Kingdom →Browse all categories →
Related Opportunities in United Kingdom
See every United Kingdom Schools and Universities opportunity your competition is missing. Free for 14 days.
Get real-time alerts, competitive intelligence, and deadline tracking for this and every market worldwide.
Start Free Trial — No Card RequiredFree 14-day trial · no card required
See who is already competing here →