CRYSTALLINE PhD position – Solid state spin based quantum sensors with increased sensitivity (all genders) // Job-ID: 152-1
Your future responsibilities
Spin centers in wideband gap semiconductors such as diamonds and silicon carbides are offering ideal platforms for realization of quantum sensors given their strong optical transitions and long quantum coherence lifetimes. In diamond, the nitrogen vacancy centers (NV-) are particulary prominent due to their exceptional coherence, high brightness and large spin contrast. In recent years important progress has been made which led to realization of nanoscale, subpicotesla magnetometers, quantum gyroscopes, NMR spectrometers and similar.
Notably, the sensitivity of these sensors depends on the optical spin readout contrast and the signal strength, which continues to remain a limiting factors preventing widescale adoption of such sensors. In the past, several attempts have therefore been made to improve the sensitivity by improving either of the both factors:
(i) by improving the host material purity, (ii) photon collection efficiency, (iii) by leveraging spin-to-charge conversion facilitating photoelectric detection, (iv) by laser threshold magnetometry and finally, (v) machine-learning and AI based postprocessing techniques.
Recently, new charge state initialization techniques have been reported, which help reducing the NV0 background luminescence, allowing to boost the spin readout contrast beyond 46%. In addition, promising new quantum platforms with intrinsically high spin-contrast have emerged, such as single spin defects in gallium nitride or PL6 divacancy in silicon carbide, offering fascinating new research directions.
The PhD project tends to explore and investigate mechanisms, that allow one to improve the sensitivity beyond current capabilities. The candidate will adopt these theoretical concepts, implement them on the real hardware in a lab environment and experimentally verify in first proof of principle experiments. A final step involves development of functional prototypes, demonstrating practically relevant applications on state-of-the art quantum sensing use-cases including inertial sensing and quantum magnetometry.
The research will involve:
- Work or spin-based quantum systems in wide-band gap semiconductors for magnetometry and inertial sensing applications
- Implementation of several quantum protocols for initialization and readout of electron and nuclear spins
- Development of required magnetic, optical, electrical and RF subsystems
- Experimental work, proof of principle experiments, feasibility studies
- Building demonstrators, data processing
- Scientific dissemination (conference proceedings, journal papers, patents)
Your Leadership responsibilities
Your Scientific responsibilities
Your profile
- Master’s degree in physics with focus on optics, spectroscopy, semiconductors or atomic physics and related area of expertise.
- Broad engineering interest with experience in prototyping.
- Experience of working with lab equipment, electronics and measurement devices.
- Good programming skills in Python.
- Proactive, can-do attitude; interested in technical science and open to working independently.
- Excellent written and verbal communication skills in English, German is a plus.
- Familiar with Office tools (Word, Excel, …) .
Important Facts about SAL
- Application deadline: 3 November 2024
- Weekly working hours: 38.5
- Diversified research activities with plenty of technical challenges.
- State-of-the-art lab facilities and instruments.
- Internal and external training opportunities for further development.
- Home Office possible.
- € 4 per day food allowance in restaurants or € 2 per day in supermarkets.
- Family & kids friendly.
- Free coffee/milk/tea & fresh fruits.
Become part of Silicon Austria Labs
Application requirements:
- Applicants must not have resided and/or carried out their main activity (work, studies, etc.) in Austria for more than 12 months in the 3 years immediately before the call deadline.
- Master’s degree including official evidence completed by application deadline.
- Not in possession of a PhD degree.
- Only complete sets of application documents concatenated in a single PDF can be accepted.
- [Mandatory] 1-page letter of motivation (in English), including a declaration of the considered research topic
- [Mandatory] CV (in English), including
- expertise, skills, and
- (if applicable) list of internships and publications & patents
- [Mandatory] Scanned copies of transcripts of records for bachelor and the master (or equivalent degree) including the diplomas proofing the completion of the studies (originally issued in English or German, or an official translation in alignment with the guidelines on translation and authentication)
- [Mandatory] Proof of fluency in English at minimum B2 level (Upper Intermediate English). Accepted proofs are e.g. master studies in English or an internationally accepted certificate.
- [Mandatory] Scanned copy of valid Passport/ID
- [Optional] Letter of references from academic reference persons (with contact details)
- [Optional] Authored/Co-authored publications
- [Mandatory] Master thesis
Please note: As part of the assessment (please check Selection Process for details), we will send out the set of scientific tasks on Nov 4th till 12:00, CET, for which you will then have exactly 3 days to solve. Please plan your schedule accordingly.