The Institute of Physics at the University of Amsterdam is offering 2 PhD positions In Experimental Quantum Physics in the 2021/22 academic session.

Project details:

ESR1 – Compact atomic sources and beams for steady-state superradiant lasers 
Steady-state atomic beam sources are crucial to realizing superradiant clocks and beneficial for quantum sensing with ultracold atoms in general. They have developed a continuous beam of ultracold atoms of unprecedented brightness and phase-space density [1] and can create steady-state Bose-Einstein condensates. This continuous source of atoms is one of the foundations of their attempts to develop continuous superradiant clocks within iqClock. The source they have developed so far is rather large and needs to be shrunk in size and complexity to enable more researchers to use them and to bring them out of the lab into the field. They are developing new concepts for generating ultra-cold strontium beams based on compact ovens, 2D MOTs, Grating MOTs and desorption cells. The starting point of ESR1’s project will be to develop and compare a range of different technology approaches and to build and characterize the best approach. The ESR will then use the knowledge gained to advance our attempts to build continuous superradiant lasers and an atom laser. Another aspect of ESR1’s work will be to develop advanced laser sources.

ESR2 – Precision laser stabilization and locking 
The core of ESR2’s project is to develop an ultrastable laser and use it for research. ERS2 will build an ultrastable, high-finesse cavity and lock a laser to it such that it has a linewidth well below 1 Hz. Light will be sent from this laser through phase-stabilized fibre links to the superradiant clock we develop within iqClock and serve to characterize its precision. These characterizations will be used to identify precision limiting effects and to improve the clock. A further research opportunity is to use this laser for internal state control in our programmable quantum simulator. Another aspect of ESR2’s work will be the development of a scalable and simple system to lock all lasers required to operate a superradiant clock.

Worth of Award

  • The gross full-time monthly salary will be in accordance with the salary scales for PhD researchers at Dutch universities, scale P ranging from €2,325 to €2,972 gross per month.
  • Secondary benefits at Dutch universities are attractive and include 8% holiday pay and an 8.3% end-of-year bonus.

Eligibility

You hold a MSc. or equivalent in physics or a related field and are requested to motivate why you apply for the position and to supply a CV.

Other skills/experiences/documents that would benefit your application are:

  • previous experience in an optical, atomic or molecular physics lab;
  • working knowledge of a programming language (matlab, C++ or equivalent);
  • excellent English oral and written communication skills;
  • scientific publications.

To foster diversity in their research group, they will especially appreciate applications from excellent female candidates.

How to Apply

Do you recognize yourself in the job profile? Then they look forward to receiving your application.

You may apply using the link below. Your application must include:

  • a curriculum vitae;
  • a motivation letter that explains why you have chosen to apply for this specific position with a statement of your research experience and interests and how these relate to this project;
  • title and summary of your Master thesis.

Please make sure all your material is attached in only one pdf. The single pdf can be uploaded in the field marked CV in the application form. To accelerate the review of your application, please also send it to Florian Schreck per email.

They will consider applications as they are received with flexible starting dates, and the positions will remain open until five suitable candidates have been identified.

Deadline: The formal closing date is December 31, 2020.

 

Click here for more details and to apply

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