Physicist – Research on SNSPDs
Stuttgart, Baden-Württemberg, Germany · Tempo total
Seja o primeiro a se candidatar
- Experiência
- Qualquer
- Salário
- —
- Vagas
- 1
- Publicado
- há 2 horas
- Modo de trabalho
- No escritório
- Educação
- PhD in experimental physics
- Elegibilidade
- Applicants with a PhD in experimental physics who can independently tackle experimental physics problems and work with cryogenic setups, RF electronics, and femtosecond laser systems are suitable. Experience in cryogenic/RF electronics and femtosecond lasers is a plus.
- Retomar
- Obrigatório candidatar-se
Onde você trabalhará
Descrição da vaga
About the company
Single Quantum is a worldwide front-runner in superconducting nanowire single photon detectors (SNSPDs), serving areas such as photonic quantum technology, time-resolved microscopy, and optical communication for deep-space applications. The company is focused on pushing the limits of detector performance to create the fastest and most sensitive light detectors available. Its German R&D center is growing at the Stuttgart University campus, and the team is seeking a physicist to drive advanced SNSPD research for next-generation ultra-sensitive detectors.
Role overview
In this position, you will work on designing and developing the next generation of SNSPDs with extremely low timing jitter and high quantum efficiency across the optical range, from blue/UV through deep infrared. The work involves building cryogenic test systems that combine high-bandwidth RF electronics with femtosecond laser optics, while also paying close attention to cryogenic thermal/mechanical design, signal integrity, and full automation. You will also work closely with Single Quantum’s scientific customers to help ensure the company’s detectors support leading-edge research in quantum technology and photonics worldwide.
Key responsibilities
- Design and run advanced cryogenic experiments for SNSPDs together with the related cryogenic RF electronics.
- Build and configure a femtosecond laser system with two frequency-doubling stages, including a pulse picker with a high on-off ratio.
- Develop detectors that achieve timing jitter in the range of only a few picoseconds.
- Work with renowned research groups across the field and share results at major scientific conferences.
Candidate profile
- Strong aptitude for rapidly understanding and solving practical experimental physics challenges.
- Hands-on capability to assemble, troubleshoot, and improve experimental setups involving cryostats, femtosecond lasers, free-space optics, and cryogenic RF electronics.
- Self-directed learner with strong curiosity and the ability to pick up new topics quickly.
- Prior exposure to cryogenic electronics and/or RF electronics is advantageous.
- Experience working with femtosecond lasers is also beneficial.
- PhD in experimental physics.
Benefits
- High level of autonomy in day-to-day work.
- Chance to collaborate with internationally recognized researchers.
- Opportunity to attend leading conferences and trade shows.
- Flexible working hours.
Work location
This is an onsite role based in Stuttgart, Baden-Württemberg, Germany.