Physics Fully Funded EPRSC DTP PhD Scholarship: Nanoparticle Manipulation and Integration for Quantum Optomechanical Systems (NAMIQOS)

Physics: Fully Funded EPRSC DTP PhD Scholarship: Nanoparticle Manipulation and Integration for Quantum Optomechanical Systems (NAMIQOS)

Optical forces arise when light, which has no mass yet carries momentum, is deflected through interaction with a material object. Lasers of power ~100mW focused to a spot ~10um exert significant forces on objects ~100nm across. These nanoparticles can be levitated, in vacuum, and manipulated by modulating the optical field. Interferometric measurement and active feedback techniques allow these systems to approach quantum limits of position sensitivity.

This research is part of the field of levitated optomechanics. Since the seminal demonstration of feedback cooling to sub-Kelvin temperatures [Gieseler 2012], the field has seen rapid and intense research, with recent achievements including cooling to the quantum-mechanical ground-state with optical cavities [Delić 2020] and in a cryogenic environment [Tebbenjohanns 2021].

This project will explore development of practical devices based on levitated optomechanics including engineered isolation of specific mechanical modes and microfabrication techniques to source, prepare, and levitate nanoparticles in a compact, robust device. Microfabrication will be explored in collaboration with Swansea University's Centre for Integrative Semiconductor Materials [CISM]. CISM is a new £30M research and innovation facility on Swansea University's Bay Campus which brings together semiconductor and advanced materials platforms and offers manufacturing grade ISO-qualified clean rooms for process development, backend materials integration and packaging capabilities, and access to advanced characterisation and analysis.

The student will benefit from integration with the nascent Swansea Doctoral Training Initiative UK-SIFS: UK Semiconductor Industry Future Skills (CISM, Meredith) which will create a vibrant, multi-disciplinary cohort experience and provide highly practical training and links with industrial partners.

Development of the robust platform provides a route towards quantum devices, where the particle is treated as a quantum mechanical object subject to superposition and decoherence. Establishing capability in this classical space is a necessary step towards realising fully quantum-limited devices, for which there are a number of exciting theoretical proposals in accelerometry with predicted sensitivities 10-17g/sqrt(Hz) [Pontin 2018].

Bachelor Degree or equivalent, Candidates must hold an undergraduate degree at 2.1 level or a master's degree with a minimum overall grade at 'Merit' (or Non-UK equivalent as defined by Swansea University). If you are eligible to apply for the scholarship but do not hold a UK degree, you can check our comparison entry requirements. Please note that you may need to provide evidence of your English Language proficiency.

Specific Requirements

English Language: IELTS 6.5 Overall (with no individual component below 6.0) or Swansea University recognised equivalent., Candidates must hold an undergraduate degree at 2.1 level or a master's degree with a minimum overall grade at 'Merit' (or Non-UK equivalent as defined by Swansea University). If you are eligible to apply for the scholarship but do not hold a UK degree, you can check our comparison entry requirements. Please note that you may need to provide evidence of your English Language proficiency.

English Language: IELTS 6.5 Overall (with no individual component below 6.0) or Swansea University recognised equivalent.

This scholarship covers the full cost of tuition fees and an annual stipend at £19,237.

Additional research expenses will also be available.
Eligibility criteria