Weak lensing combined with the kinetic Sunyaev Zel'dovich effect: A study of baryonic feedback
Total solar eclipse 2024: what we saw and what scientists learnt
Nature, Published online: 10 April 2024; doi:10.1038/d41586-024-01054-z
Astronomers and enthusiasts share with Nature what dazzled them most during the moments when the Moon blocked the Sun.The multiverse could be much, much bigger than we ever imagined
One of the biggest mysteries of cosmology may finally be solved
IT Helpdesk Specialist (Fixed Term)
Fixed-term: The funds for this post are available for 3 years in the first instance.
The Institute of Astronomy (IoA, see: www.ast.cam.ac.uk) is a highly computer-reliant department in the School of Physical Sciences at the University of Cambridge, and is engaged in teaching and research in the fields of theoretical and observational astronomy.
There is a vacancy in the IoA's IT team for a technically competent individual who enjoys both problem solving and assisting people with IT matters. The IT team are collectively responsible for providing and/or supporting all the IT services used at the IoA, including the network, audiovisual services, servers, desktops, laptops and phones, so a broad range of skills is needed.
This role specialises in providing customer-facing support to all the IoA's staff, students and visitors, although there will be some time to work on IT projects. It requires a good knowledge of Linux, networks and audiovisual systems and services, with excellent troubleshooting and fault-finding skills. Expertise in Windows and Mac OS is desired. The role-holder will need very good written and verbal communication skills, and be able to convey information clearly to people with a range of technical understanding. The role will involve manual handling and manual dexterity and working in confined spaces.
The IoA's IT helpdesk uses a ticketing system to manage workflows, both for requests and for project work. The role holder will need to triage tickets to prioritise urgent requests, contacting other team members for assistance when appropriate. The role requires an organised, methodical approach, a rapid assimilation of information, and is best suited to those who remain calm when under pressure due to quickly changing priorities and unplanned urgent work requirements.
Much of the scientific research at the IoA is carried out on Linux computers, and candidates should detail their experience in working with Linux servers and desktops. An important part of the job is supporting the administration staff, who use Windows systems, so experience in supporting Windows and Office applications is desired. The role holder will need to acquire a thorough knowledge of the administrative processes in place at the University. Supporting the AV systems in the lecture theatre and meeting rooms will need the ability to gain a good understanding of AV systems, and the confidence to be able to resolve issues in the presence of an audience.
If this sounds like the job for you, and you would like to join the IoA's small team of IT professionals, working at a very pleasant site on Madingley Rise, please read the further particulars and apply.
Click the 'Apply' button below to register an account with our recruitment system (if you have not already) and apply online.
Please indicate the contact details of three employment-related referees, one of whom should be your most recent line manager, on the online application form and upload a full curriculum vitae (CV), and a covering letter describing how you are suited to this role.
References will be requested for shortlisted applicants only.
The closing date for applications is: 23:59 BST on 30th April 2024.
Applications will be reviewed after the closing date and interviews are provisionally planned for mid-May; more details will be shared with shortlisted candidates nearer the time.
Please refer to further particulars for full instructions. For any queries regarding the application please contact: hr@ast.cam.ac.uk.
Please quote reference LG41244 on your application and in any correspondence about this vacancy.
This role does not require screening but the successful candidate will be asked to complete and adhere to a confidentiality agreement as you will potentially have access to sensitive information.
Conversations about flexible working are encouraged at the University of Cambridge. Please feel free to discuss flexibility prior to applying (using the contact information above) or at interview if your application is successful.
The University of Cambridge thrives on the diversity of its staff and students. We have an active Equality and Diversity Committee which continually works to further the aims of the Athena SWAN charter. The University has a number of family-friendly policies and initiatives, including a returning-carer scheme, childcare costs support, university workplace nurseries, university holiday play-schemes, and a shared parental-leave policy.
The University has a responsibility to ensure that all employees are eligible to live and work in the UK.
Fri 31 May 11:30: Title to be confirmed
Abstract not available
- Speaker: Sinan Deger (KICC)
- Friday 31 May 2024, 11:30-12:30
- Venue: Ryle seminar room + online.
- Series: Galaxies Discussion Group; organiser: Sandro Tacchella.
PHL 5038AB: Is the brown dwarf causing pollution of its white dwarf host star?
First ALMA observations of the HD 105211 debris disc: A warm dust component close to a gigayear-old star
Eclipse 2024: 5 of the best pictures of the total solar eclipse
Four-of-a-kind? Comprehensive atmospheric characterisation of the HR 8799 planets with VLTI/GRAVITY
Wed 22 May 11:30: Hierarchical star cluster assembly boosts intermediate-mass black hole formation
Observations and high-resolution hydrodynamical simulations indicate that massive star clusters assemble hierarchically from sub-clusters with a universal power-law cluster mass function. We study the consequences of such assembly for the formation of intermediate-mass black holes (IMBHs) and massive black hole (MBH) seeds at low metallicities (1% of the solar value) with our updated direct N-body code BIFROST in simulations up to N = 2.35 million stars. The GPU -accelerated code BIFROST is based on the hierarchical fourth-order forward integrator. Few-body systems are treated using secular and regularized techniques including post-Newtonian equations of motion up to order PN3 .5 and gravitational-wave recoil kicks for merging BHs. Stellar evolution is provided by the fast population synthesis code SEVN . IMBHs with masses up to 2200 solar masses form rapidly mainly via the collapse of very massive stars (VMSs) assembled through repeated collisions of massive stars followed by growth through tidal disruption events (TDEs) and BH mergers. Later the IMB Hs form subsystems resulting in gravitational-wave BH-BH, IMBH -BH and IMBH -IMBH mergers with a 1000 solar mass gravitational-wave detection being the observable prediction. Our simulations indicate that the hierarchical formation of massive star clusters in metal poor environments naturally results in formation of potential seeds for supermassive black holes.
- Speaker: Antti Rantala (MPA)
- Wednesday 22 May 2024, 11:30-12:30
- Venue: Martin Ryle Meeting Room, KICC + Online.
- Series: Kavli Institute for Cosmology Seminars; organiser: Alison Wilson.
How a total solar eclipse in 1919 left physicists 'more or less agog'
We finally know why Stephen Hawking's black hole equation works
Thu 16 May 16:00: Inside Astronomically Realistic Black Holes
I will use a real-time general relativistic Black Hole Flight Similator to show what really happens inside astronomically realistic black holes. The inner horizon of a rotating black hole is the most violent place in the Universe, easily reaching and surpassing energy densities attained in the Big Bang. What does Nature do at this extraordinary place?
- Speaker: Prof. Andrew Hamilton (University of Colorado Boulder)
- Thursday 16 May 2024, 16:00-17:00
- Venue: Hoyle Lecture Theatre, Institute of Astronomy.
- Series: Institute of Astronomy Colloquia; organiser: eb694.
Thu 16 May 16:00: Inside Astronomically Realistic Black Holes
I will use a real-time general relativistic Black Hole Flight Similator to show what really happens inside astronomically realistic black holes. The inner horizon of a rotating black hole is the most violent place in the Universe, easily reaching and surpassing energy densities attained in the Big Bang. What does Nature do at this extraordinary place?
- Speaker: Prof. Andrew Hamilton (University of Colorado Boulder)
- Thursday 16 May 2024, 16:00-17:00
- Venue: Hoyle Lecture Theatre, Institute of Astronomy.
- Series: Institute of Astronomy Colloquia; organiser: eb694.
Tue 07 May 11:30: KICC Special Seminar (Title TBC)
Abstract not available
- Speaker: Tsevi Mazeh (Tel Aviv)
- Tuesday 07 May 2024, 11:30-12:30
- Venue: Hoyle Lecture Theatre + ONLINE - Details will be sent by email.
- Series: Kavli Institute for Cosmology Seminars; organiser: Alison Wilson.
Fri 07 Jun 11:30: Title to be confirmed
Abstract not available
- Speaker: Arjen van der Wel (Ghent University)
- Friday 07 June 2024, 11:30-12:30
- Venue: Ryle seminar room + online.
- Series: Galaxies Discussion Group; organiser: Sandro Tacchella.
Fri 21 Jun 11:30: Modelling supermassive black holes: accretion, spin evolution, jets and winds
Abstract not available
- Speaker: Martin Bourne (IoA)
- Friday 21 June 2024, 11:30-12:30
- Venue: Ryle seminar room + online.
- Series: Galaxies Discussion Group; organiser: Sandro Tacchella.