PhD position in nonlinear laser spectroscopy on altermagnets

Updated: 23 days ago
Job Type: Permanent

100%, Zurich, fixed-term

In the Laboratory for Functional Ferroic Materials we investigate materials where strong coupling between electrons leads to novel types of ordering processes of their spins and charges. Our scope is to study the fundamental physics of these materials with a focus on experimental basic research, yet including the perspective on the theoretical background and on technological relevance. Our experimental core technology is nonlinear optical spectroscopy with pulsed lasers. In addition we apply atomic force microscopy, standard magnetic and dielectric characterization methods, Monte-Carlo simulation, and pulsed-​laser-deposition of oxide thin films.


Project background

The PhD project unites our internationally leading expertise in nonlinear laser spectroscopy and ferroic materials. Its aim is to explore novel manifestations of ferroic order, in particular altermagetism, with the use of class-IV laser systems. Altermagnetism is a new and largely unxplored concept for magnetic order with plenty of room for  groundbreaking discoveries.


Job description

The goal of the project is to advance the concept of altermagnetism at large. Spatially resolved imaging and manipulation of altermagnetic domains in a variety of materials are central objectives. Candidates design and set up the workplace for their nonlinear-optical experiments. Lasers are not just a tool, but part of the setup where candidates have no reservations to carry out basic adjustments or maintenance. They will also learn to work with cryogenic environments. They are never afraid to tear everything down and try a new approach, should this become necessary. Despite the focus on laser-optical experiments, the involvement of other experimental techniques and in-depth discussion with  theoretical groups are likely requirements.


Your profile
  • You have a masters degree in Physics or Materials Physics.
  • You have hands-on experience with class-IV lasers and related techniques.
  • You have at least basic education in condensed matter physics.
  • You like to work on complex problems with an urge to understand phenomena at their roots.
  • You are highly motivated, self-organized, creative, and used to thinking sideways.
  • You are a team player who likes to work in an interdisciplinary environment at the interface between optics and condensed-matter physics.
  • You are communicative with the ability to explain your project to non-specialists in simple words.


Your workplace

Your workplace

We offer
  • Outstanding lab facilities with several femtosecond and nanosecond laser systems.
  • An international environment of mutually supportive people
  • A flat hierarchy: everyone's opinion weighs the same in scientific discussions
  • Excellent working conditions and an internationally competitive salary
  • Support for attending international conferences and workshops
  • An extensive network of scientific collaborators
  • Access to the excellent technological infrastructure of ETH Zurich
  • Administrative support

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Curious? So are we.

We look forward to receiving your online application. Please submit the following.

  • A cover letter stating your motivation for this position and your experience in working with class-IV lasers
  • A CV including publications and presentations
  • Diplomas and a list of courses attended
  • References (optional) as PDF files

Please note that we exclusively accept applications submitted through our online application portal.

For further information please visit our website .

Questions regarding the position should be directed by email to Dr. Thomas Lottermoser ([email protected]) or Prof. Manfred Fiebig ([email protected]). Selection will start immediately, so early submissions are strongly encouraged.


About ETH Zürich

ETH Zurich is one of the world’s leading universities specialising in science and technology. We are renowned for our excellent education, cutting-edge fundamental research and direct transfer of new knowledge into society. Over 30,000 people from more than 120 countries find our university to be a place that promotes independent thinking and an environment that inspires excellence. Located in the heart of Europe, yet forging connections all over the world, we work together to develop solutions for the global challenges of today and tomorrow.



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