格拉茨理工大学PhD position in Lifetime of surface Phonons and Energy Dissipation申请条件要求-申请方

PhD position in Lifetime of surface Phonons and Energy Dissipation
PhD直招2026秋季
申请时间:2026.08.02截止
主办方
格拉茨理工大学
PhD直招介绍
About the Project 2 PhD Positions in Surface Dynamics of 2D and Quantum Materials Surface Science | Condensed Matter Physics | 2D Materials | Quantum Materials | Computational Materials Science About the Project The surface science group( https://www.tugraz.at/surfaces ) at the Institute of Experimental Physics, Graz University of Technology, is offering two PhD positions as part of the FWF-funded project “LiPhED: Lifetime of surface Phonons and Energy Dissipation.”( https://www.tugraz.at/surfaces/liphed-lifetime-of-surface-phonons-and-energy-dissipation ) Energy dissipation at surfaces and interfaces is a central process in modern materials science, influencing the performance of nanoscale devices, two-dimensional materials, and emerging quantum technologies. However, the microscopic mechanisms that determine surface phonon lifetimes and energy transfer pathways remain insufficiently understood. Establishing a quantitative understanding of these processes is essential for controlling how energy flows in low-dimensional and quantum materials. The LiPhED project aims to develop a quantitative framework for understanding surface phonon lifetimes and energy dissipation. The project combines high-resolution surface-science experiments with atomistic and machine-learning-enhanced computational modelling to disentangle the microscopic mechanisms governing phonon dynamics at surfaces. The work will begin with the model system Ni(111) and then progress to two-dimensional materials, in particular hexagonal boron nitride (h-BN) on Ni(111). In this system, intercalation and substrate decoupling will be used to tune phonon lifetimes and energy dissipation. In the final stage, the project will explore selected quantum materials. Project Focus We are recruiting two PhD candidates for complementary experimental and computational roles. The candidates will work closely together throughout the project and will contribute to a shared understanding of surface dynamics in 2D and quantum materials. The experimentally oriented PhD position will focus on measurements using helium atom scattering and photoemission techniques in Graz, complemented by helium spin-echo spectroscopy at the CORDE facility in Cambridge. The computationally oriented PhD position will focus on atomistic modelling and machine-learning-enhanced simulations, carried out in close collaboration with E. Zojer in Graz and J. Meyer in Leiden. The project offers excellent opportunities to develop expertise in surface-science methods, computational modelling, advanced data analysis, and international scientific collaboration. Research Environment The Institute of Experimental Physics at Graz University of Technology offers an excellent research environment, with access to strong scientific expertise, modern facilities, and a collaborative international research community. Doctoral researchers also benefit from supplementary qualification programmes and courses designed to support the development of scientific skills, professional networks, and future career prospects.
格拉茨理工大学 PhD position in Lifetime of surface Phonons and Energy Dissipation项目有没有奖学金,是不是全奖Phd招生,下面我们一起看一下【大学名称】Phd的奖学金资助情况
项目资助情况
Funding and Employment Conditions The positions are funded through the Austrian Science Fund FWF and are available from 1 September 2026 or later. The contracts are limited to 3 years. The positions are offered at 30 hours per week, with payment according to the standard FWF salary scheme: €2,832.10 gross per month, paid 14 times per year.
格拉茨理工大学Phd申请条件和要求都有哪些?PhD position in Lifetime of surface Phonons and Energy Dissipation项目是不是全奖?有没有奖学金?下面我们一起看一下格拉茨理工大学申请Phd直招需要具备哪些条件和要求,以及托福、雅思语言成绩要到多少才能申请。
申请要求
Candidate Profile Applicants should hold, or be close to completing, a Master’s degree or equivalent in physics, chemistry, materials science, or a closely related discipline. Experience in one or more of the following areas is desirable: condensed matter physics, surface science, or nanoscience; ultrahigh-vacuum technology; scattering methods and reciprocal-space techniques; photoemission spectroscopy; atomistic modelling, computational materials science, or molecular dynamics. Basic programming skills, for example in Python and/or MATLAB, are expected. For the computational PhD position, stronger programming skills and previous experience in computational modelling are expected. Candidates should have a strong interest in experimental and/or computational surface science and enjoy working in an international research environment.
报名方式
招生人信息
Dr A Tamtögl, Prof EZ Zojer
邮箱:tamtoegl@tugraz.at