Welcome

 

Welcome to the official website of the European High Pressure Research Group (EHPRG).

EHPRG is non-profitable academic association established in 1963 which is devoted to science and technology of matter under high pressure. It organizes an annual meeting which brings together hundreds of scientists of various fields, mainly physics, chemistry, Earth and planetary sciences, bio- and food science and technology.

The reasonable size of the group, low conference fees, and a friendly relationship between the attendants have made EHPRG meetings a major event in the European high-pressure community for more than half a century.

Upcoming EHPRG Meeting

 


The 62nd EHPRG Meeting will take place in Manchester, UK, at the Lowry, in the period August 31-September 5, 2025.
The conference will be chaired by John Proctor, Salford University, UK.
For more information, please visit the official webpage of EHPRG-62.

Immediate past EHPRG Meetings

 


The 61st EHPRG Meeting has taken place in Thessaloniki, Greece, at the Porto Palace Hotel, in the period September 1-6, 2024.
The conference has been chaired by John Arvanitidis and Dimitris Christofilos, Aristotle University of Thessaloniki.
For more information, please visit the official webpage of EHPRG-61.

 


The Joint 28th AIRAPT and 60th EHPRG International Conference on High Pressure Science and Technology (AIRAPT-2023) took place in Edinburgh, UK, at the Edinburgh International Conference Centre (EICC), from July 23-28, 2023.
Immediately prior to AIRAPT/EHPRG, from the 19th to 23rd of July 2023, a Summer School had taken place, also based in Edinburgh, with accommodation provided in University Halls of Residence. The School was aimed at young researchers, and experimentalists wanting a grounding in theory and vice versa.
A photo album is available on the AIRAPT website.
For more information, please visit the official webpage of AIRAPT-23.

High-pressure in the headlines

 

Selection of high-pressure related titles from top scientific journals.

    Bridgmanite’s ferric iron content determined Earth’s oxidation state
    by Fei Wang

    Nature Geoscience, Published online: 23 June 2025; doi:10.1038/s41561-025-01725-0

    As bridgmanite crystallized from a reduced magma ocean, it left an oxidized lower mantle that may explain the oxidation state of the current upper mantle after mixing, according to high-pressure and high-temperature multi-anvil experiments.
    23 Jun 2025 at 12:00am
    Harnessing nanofluidic rectification for electrically driven water purification

    Nature Materials, Published online: 18 June 2025; doi:10.1038/s41563-025-02271-1

    Electro-osmotic flow rectification, a nonlinear nanofluidic effect, has been scaled up to the membrane level. This effect allows for continuous water purification using oscillating electric fields and achieves a performance equivalent of up to 15 bars of pressure per applied volt. This approach offers a scalable, energy-efficient alternative to pressure-driven filtration and electrodialysis.
    18 Jun 2025 at 12:00am

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    Neural Canonical Transformations for Quantum Anharmonic Solids of Lithium
    by Qi Zhang, Xiaoyang Wang, Rong Shi, Xinguo Ren, Han Wang, and Lei Wang
    Author(s): Qi Zhang, Xiaoyang Wang, Rong Shi, Xinguo Ren, Han Wang, and Lei Wang

    Lithium is a typical quantum solid, characterized by cubic structures at ambient pressure. As the pressure increases, it forms more complex structures and undergoes a metal-to-semiconductor transformation, complicating theoretical and experimental analyses. We employ the neural canonical transformat…


    [Phys. Rev. Lett. 134, 246101] Published Fri Jun 20, 2025
    20 Jun 2025 at 12:00pm
    Incommensurate Antiferromagnetism in ${\mathrm{UTe}}_{2}$ under Pressure
    by W. Knafo, T. Thebault, S. Raymond, P. Manuel, D. D. Khalyavin, F. Orlandi, E. Ressouche, K. Beauvois, G. Lapertot, K. Kaneko, D. Aoki, D. Braithwaite, and G. Knebel
    Author(s): W. Knafo, T. Thebault, S. Raymond, P. Manuel, D. D. Khalyavin, F. Orlandi, E. Ressouche, K. Beauvois, G. Lapertot, K. Kaneko, D. Aoki, D. Braithwaite, and G. Knebel

    Neutron diffraction reveals that superconductivity in UTe2 emerges near an incommensurate antiferromagnetic phase under pressure, pointing to antiferromagnetic—rather than ferromagnetic—correlations as a key driving force.


    [Phys. Rev. X 15, 021075] Published Fri May 30, 2025
    30 May 2025 at 12:00pm
    Superconductivity in Trilayer Nickelate ${\mathrm{La}}_{4}{\mathrm{Ni}}_{3}{\mathrm{O}}_{10}$ under Pressure
    by Mingxin Zhang et al.
    Author(s): Mingxin Zhang et al.

    The emergence of superconductivity in the Ruddlesden-Popper phase nickelate La4Ni3O10 around 25 K under high pressure opens new search avenues for unconventional superconductivity in bulk materials.


    [Phys. Rev. X 15, 021005] Published Fri Apr 04, 2025
    4 Apr 2025 at 12:00pm
    Colloquium: Room temperature superconductivity: The roles of theory and materials design
    by Warren E. Pickett
    Author(s): Warren E. Pickett

    Superconductivity, discovered in 1911 and first theoretically understood in 1957, remains a fascinating phenomenon for reasons both fundamental and applied. Reliably calculating the critical temperature of a given material, and even more so predicting it, turned out to be a considerable challenge. This Colloquium explains how theoretical developments have led to increasingly reliable predictions that have culminated in the discovery of the hydride materials that display superconductivity under high pressure at temperatures just shy of room temperature.


    [Rev. Mod. Phys. 95, 021001] Published Fri Apr 07, 2023
    7 Apr 2023 at 12:00pm
    Phase stability of materials in sodium-rich silicates at high pressure
    by Haoyu Wang, Wenwen Cui, Jian Hao, Jingming Shi, and Yinwei Li
    Author(s): Haoyu Wang, Wenwen Cui, Jian Hao, Jingming Shi, and Yinwei Li

    Sodium (Na), silicon (Si), and oxygen (O) are main abundant elements to form the minerals inside the Earth's interior. Here, combining first-principles calculations and crystal structural prediction methods, we propose the formation of a distinct stoichiometry, ${\mathrm{Na}}_{6}{\mathrm{SiO}}_{5}$,…


    [Phys. Rev. Materials 9, 063603] Published Fri Jun 06, 2025
    6 Jun 2025 at 12:00pm
    Fully thermal meta-GGA exchange correlation free-energy density functional
    by Katerina P. Hilleke, Valentin V. Karasiev, S. B. Trickey, R. M. N. Goshadze, and S. X. Hu
    Author(s): Katerina P. Hilleke, Valentin V. Karasiev, S. B. Trickey, R. M. N. Goshadze, and S. X. Hu

    Warm dense matter (WDM) is the materials regime that bridges condensed matter and plasmas that occurs in giant-planet centers and the state trajectory of inertial confinement fusion experiments. Predictive density functional theory simulations of WDM must use an explicitly temperature-dependent free-energy exchange-correlation functional. Incorporating thermal effects at the meta-GGA level of refinement, the newly developed fully thermal fTSCAN functional provides high accuracy across the entire temperature and pressure range from ambient to extreme conditions. Tests on model systems highlight the contributions of thermal and density inhomogeneity effects, while molecular dynamics simulations demonstrate accuracy for materials ranging from water under ambient conditions to dense hydrogen at a wide range of temperatures.


    [Phys. Rev. Materials 9, L050801] Published Tue May 27, 2025
    27 May 2025 at 12:00pm
    High-pressure floating zone crystal growth of ${\text{Sr}}_{2}{\text{IrO}}_{4}$
    by Steven J. Gomez Alvarado, Yiming Pang, Pedro A. Barrera, Dibyata Rout, Claudia Robison, Zach Porter, Hanna Z. Porter, Erick A. Lawrence, Euan N. Bassey, and Stephen D. Wilson
    Author(s): Steven J. Gomez Alvarado, Yiming Pang, Pedro A. Barrera, Dibyata Rout, Claudia Robison, Zach Porter, Hanna Z. Porter, Erick A. Lawrence, Euan N. Bassey, and Stephen D. Wilson

    Here we demonstrate the floating zone crystal growth of the ${J}_{\mathrm{eff}}=1/2$ Mott insulator ${\mathrm{Sr}}_{2}{\mathrm{IrO}}_{4}$. Historically, the growth of iridates from a ternary melt has been precluded by the extreme vapor pressure of the metal oxide species and the difficulty of mainta…


    [Phys. Rev. Materials 9, 053402] Published Fri May 16, 2025
    16 May 2025 at 12:00pm
    Pressure-induced resurgence of the superconducting transition in spinel $\mathrm{MgT}{\mathrm{i}}_{2}{\mathrm{O}}_{4}$ thin films
    by Lifen Shi, Zhuang Ni, Jun Hou, Wei Hu, Qian Li, Pengtao Yang, Bosen Wang, Yoshiya Uwatoko, Xiaoli Dong, Kui Jin, Jianping Sun, and Jinguang Cheng
    Author(s): Lifen Shi, Zhuang Ni, Jun Hou, Wei Hu, Qian Li, Pengtao Yang, Bosen Wang, Yoshiya Uwatoko, Xiaoli Dong, Kui Jin, Jianping Sun, and Jinguang Cheng

    $\mathrm{MgT}{\mathrm{i}}_{2}{\mathrm{O}}_{4}$ is a spinel superconductor with an optimal ${T}_{\mathrm{c}}≈5$ K recently discovered by employing superlattice engineering. Here, we study the pressure effect on the superconducting properties of $\mathrm{MgT}{\mathrm{i}}_{2}{\mathrm{O}}_{4}$ thin film…


    [Phys. Rev. B 111, 224512] Published Mon Jun 23, 2025
    23 Jun 2025 at 12:00pm
    Superconductive electride ${\mathrm{Li}}_{10}\mathrm{Bi}$ under high pressure
    by Xinyu Zhang, Jiahui Wei, Chao Gu, Denys Butenko, Hanyu Liu, Yue Chen, Jinlong Zhu, and Shoutao Zhang
    Author(s): Xinyu Zhang, Jiahui Wei, Chao Gu, Denys Butenko, Hanyu Liu, Yue Chen, Jinlong Zhu, and Shoutao Zhang

    Electride superconductors with unique interstitial anionic electrons (IAEs) have recently attracted considerable attention. Lithium-based electride superconductors are of particular interest because of their striking electride states and superconductivity. Electrides containing Li and Bi are not yet…


    [Phys. Rev. B 111, 224513] Published Mon Jun 23, 2025
    23 Jun 2025 at 12:00pm
    Pressure effects on the Fermi surface of Ti-doped ${\mathrm{CsV}}_{3}{\mathrm{Sb}}_{5}$
    by Kyryl Shtefiienko, Cole Phillips, Matthew J. Stitz, Ganesh Pokharel, Stephen D. Wilson, David E. Graf, and Keshav Shrestha
    Author(s): Kyryl Shtefiienko, Cole Phillips, Matthew J. Stitz, Ganesh Pokharel, Stephen D. Wilson, David E. Graf, and Keshav Shrestha

    This work investigates the Fermi surface of the Ti-doped ${\mathrm{CsV}}_{3}{\mathrm{Sb}}_{5}$ superconductor under pressures up to 2.1 GPa. Upon the application of both chemical and physical pressure in ${\mathrm{CsTi}}_{0.1}{\mathrm{V}}_{2.9}{\mathrm{Sb}}_{5}$, the superconducting transition tempe…


    [Phys. Rev. B 111, 235135] Published Fri Jun 20, 2025
    20 Jun 2025 at 12:00pm
    In situ electrical conductivity measurement of saturated rocks at shallow crustal temperatures and pressures in an autoclave
    by Chaoyi Xiao Shuangming Shan Heping Li Sen Lin Shengbin Li a Key Laboratory of High-Temperature and High-Pressure Study of the Earth’s Interior, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang, People’s Republic of Chinab University of Chinese Academy of Sciences, Beijing, People’s Republic of China
    Volume 45, Issue 1, March 2025, Page 57-66
    .

    24 Dec 2024 at 7:38am
    Temperature gradients in high pressure multi-anvil cell
    by Takuya Moriguti Akira Yoneda Eiji Ito a Institute for Planetary Materials, Okayama University, Misasa, Tottori, Japanb Department of Earth and Space Science, Osaka University, Toyonaka, Osaka, Japan
    Volume 45, Issue 1, March 2025, Page 1-16
    .

    19 Dec 2024 at 1:29pm
    Pressure-sensitive germanate glass-Li2GeO3, a multifunctional energy material: a theoretical study
    by R. Zosiamliana L. Celestine Lalhriat Zuala B. Chettri Zodin Mawia G. Abdurakhmanov A. Laref Shalika R. Bhandari D. P. Rai a Physical Sciences Research Center (PSRC), Department of Physics, Pachhunga University College, Mizoram University, Aizawl, Indiab Department of Physics, Mizoram University, Aizawl, Indiac Department of Physics, North-Eastern Hill University, Shillong, Indiad National University of Uzbekistan, Tashkent, Uzbekistane Department of Physics and Astronomy, College of Science, King Saud University, Riyadh, Saudi Arabiaf Department of Physics, Bhairahawa Multiple Campus, Tribhuvan University, Rupandehi, Nepal
    Volume 45, Issue 1, March 2025, Page 29-56
    .

    25 Dec 2024 at 7:29am
    High pressure behavior of incommensurately modulated nyerereite structure
    by N. Bogdanov S. Rashchenko P. Gavryushkin V. Thomas D. Fursenko Sobolev Institute of Geology and Mineralogy SB RAS, Novosibirsk, Russia
    Volume 45, Issue 1, March 2025, Page 67-78
    .

    27 Dec 2024 at 8:15am
    Crystalline state in a pressure region of proceeding amorphization of SnI4
    by Kazuhiro Fuchizaki Hiroki Naruta Fumiya Sato Tomohiro Ohuchi Akio Suzuki a Department of Physics, Ehime University, Matsuyama, Japanb Graduate School of Science and Engineering, Ehime University, Matsuyama, Japanc Geodynamics Research Center, Ehime University, Matsuyama, Japand Department of Earth Science, Tohoku University, Sendai, Japan
    Volume 45, Issue 1, March 2025, Page 90-107
    .

    13 Jan 2025 at 12:09pm
    High pressure Raman spectroscopy of boron-rich boron carbides up to 50 GPa
    by Raimundas Sereika Seth Iwan Paul A. Baker Yogesh K. Vohra Department of Physics, University of Alabama at Birmingham, Birmingham, AL, USA
    Volume 45, Issue 1, March 2025, Page 79-89
    .

    6 Jan 2025 at 8:55am
    Disruption of Lipomyces starkeyi cells grown in hydrolyzed cheese-whey by high pressure homogenization for enhancing lipid extraction
    by Ayşe Alara Batıgün Hami Alpas Deniz Cekmecelioglu Department of Food Engineering, Middle East Technical University, Ankara, Turkey
    .

    13 Mar 2025 at 11:57am
    A new pressure medium, Daphne 7676, with solidification pressure of 5 GPa at 300 K and low melting point of around 110 K at ambient pressure
    by K. Murata K. Goto S. Klotz D. Bhoi K. Béneut Y. Uwatoko H. Yoshino S. Aoki a Osaka Metropolitan University, Osaka, Japanb Idemitsu Kosan Co. Ltd, Tokyo, Japanc IMPMC, CNRS UMR 7590, Sorbonne Université, Paris, Franced ISSP, University of Tokyo, Tokyo, Japane Univ. of Electro-Communications, Chofu, Japanf Sorbonne Université, IMPMC, Paris, Franceg Neutron Sci. &Tech. Center (CROSS), Tokai, Ibaraki, Japan
    .

    6 Jun 2025 at 8:33am
    Electrical properties of GdF3 under high pressure
    by Tingjing Hu Kenan Xu Yuanlin Liu Liyun Yan Jingshu Wang Junkai Zhang Xuefei Li Xiaoyan Cui a School of Physics and Electrical Engineering, Jiaying University, Meizhou, People’s Republic of Chinab Key Laboratory of Functional Materials Physics and Chemistry of the Ministry of Education, National Demonstration Center for Experimental Physics Education, Jilin Normal University, Siping, People’s Republic of China
    .

    10 Jun 2025 at 2:05pm
    Accurate, reproducible, and robust detection of phase transformations in alloys subjected to high isostatic pressure and cooling rates
    by Stefan Müller Santiago Benito Leonhard Gertlowski Oliver Schenk Christoph Broeckmann Sebastian Weber a Ruhr University Bochum, Chair of Materials Technology, Bochum, Germanyb RWTH Aachen, Institute of Applied Powder Metallurgy and Ceramics, Aachen, Germany
    .

    13 Jun 2025 at 1:52pm
    The magnetism and elasticity of ϵ-FeOOH across the pressure-induced electronic spin transition
    by Osamu Ikeda Tatsuya Sakamaki Takaya Mitsui Kosuke Fujiwara Hiroshi Uchiyama Hiroshi Fukui Daisuke Ishikawa Alfred Q.R. Baron Akio Suzuki a Department of Earth Science, Graduate School of Science, Tohoku University, Sendai, Japanb Kansai Institute for Photon Science, National Institute for Quantum Science and Technology, Sayo, Japanc Japan Synchrotron Radiation Research Institute, Sayo, Japand Materials Dynamics Laboratory, RIKEN SPring-8 Center, Sayo, Japan
    .

    19 Feb 2025 at 7:57am
    Irreversible changes in amorphous C₃N₄ under pressure: loss of chemical order and graphite-like character
    by Murat Durandurdu Department of Materials Science and Nanotechnology Engineering, Abdullah Gül University, Kayseri, Türkiye
    .

    21 Apr 2025 at 5:23am