PhD Position in Search for Earth-Sized Planets Transiting Nearby Ultra-Cool Dwarf Stars (DUET Project)

The PhD student will play a key role in the installation, commissioning, and early scientific exploitation of the DUET system. The scientific focus of the project is to leverage simultaneous visible and infrared observations to improve the precision of transit parameters and to disentangle stellar and atmospheric variability from planetary signals. This will involve developing advanced techniques for the physically informed processing and joint analysis of time-series data.

The successful candidate will conduct observational programmes with the SPECULOOS facility and actively participate in the scientific activities and operations of the international consortium. The PhD project will provide hands-on experience with astronomical instrumentation and state-of-the-art data analysis in a world-leading research environment at ETH Zürich. The work contributes directly to the preparation and characterisation of prime targets for atmospheric studies with the James Webb Space Telescope, with the broader goal of advancing the study of potentially habitable Earth analogues around nearby low-mass stars.

Keywords

Exoplanets; Transit Photometry; Ultra-Cool Dwarfs; SPECULOOS; Astronomical Instrumentation; Visible and Near-Infrared Observations; Stellar Variability; Time-Series Analysis

Skills Development

During the PhD, the student will develop expertise in:

• Ground-based exoplanet transit surveys
• Operation, installation, and commissioning of astronomical instrumentation
• Visible and near-infrared photometry
• Joint analysis of time-series data
• Mitigation and modelling of stellar variability in ultra-cool dwarf stars
• Transit detection and parameter estimation
• Advanced data reduction and statistical analysis techniques
• Observing campaigns with robotic telescope networks
• Scientific writing, conference presentations, and international collaboration

Start Date and Duration

The PhD position (100%) is expected to start in September 2026 (or to be agreed with the successful candidate). The initial appointment is for four years, subject to satisfactory progress, in line with ETH Zürich doctoral regulations.

• Master’s degree in astrophysics, physics, astronomy, or a closely related field
• Strong interest in exoplanet science and observational astronomy
• Interest in or experience with astronomical instrumentation and/or data analysis
• Programming skills (e.g. Python; experience with time-series analysis is an asset)
• Ability to work independently and as part of an international collaboration
• Willingness to participate in observing campaigns and instrument commissioning
• Fluency in English (spoken and written)