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Posted By Administration,
Tuesday 10 October 2023
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Authors: Francesco Berrilli and Francesca Zuccarello
The conference “Sun in Science and Society” (https://solarnet-s3.com/),
organised in the framework of the H2020 SOLARNET Project by the
University of Rome Tor Vergata (Italy) and the University of Catania
(Italy), was held in Venice/Mestre (Italy) at the Museo del 900 M9
from 11th – 15th September 2023.
It is well known that the Sun is a
variable magnetic star that modifies the physical conditions in space
creating “space climate and space weather” that can influence
terrestrial environment and worldwide technological infrastructures
affecting the global economy. The meeting “Sun in Science and Society”
allowed heliophysics scientists to illustrate the state-of-the-art in
solar theory, Sun-Earth connection and forecasting capabilities, while
stakeholders and economists examined user needs and requirements.
Moreover,
considering the Sun as a paradigm in astrophysics, the meeting provided
a forum to discuss how recent advances in the study of the Sun can be
applied to other astrophysical contexts, to identify the problems in a
selected number of fields that could be tackled using methods, tools,
points of views used by the different communities, and to foster
collaborations between researchers working on solar studies and those
working in other fields, in order to generate synergies between these
communities.
The scientific programme included six sessions: 1)
Solar activity and its drivers; 2) Sun, Space and Society; 3)
High-Resolution ground-based telescopes and technology for solar
physics; 4) Sun, Space and Society (solar physics impact on economy and
society, data for 'civil 'society, education and outreach); 5) The Sun
as a Rosetta Stone for astrophysics; 6) The Sun as a Rosetta Stone for
physics.
The meeting was very successful, with 90 participants
from European and non-European countries. The definition of the
scientific programme took into strong consideration the geographical
distribution, the gender balance and the relevance of the proposed
contributions to the main objectives of the Conference.
During the
Conference, a public event took place: “Un Sole, Nessun Sole,
Centomila Soli“. Besides some outreach talks on the Sun and on the
instruments needed to observe our star, with particular emphasis on the
European Solar Telescope, the public had the opportunity to enjoy the
documentary “Reaching fort he Sun“. At the end of the documentary, a
public debate on the importance of the Sun in our lives took place.


image credit: Francesco Berrilli and Francesca Zuccarello
Tags:
conference
ESPD
EST
European Solar Physics Division
European Solar Telescope
outreach
Solar physics
space weather
telescope
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Posted By Gina Gunaratnam,
Tuesday 10 October 2023
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The Stachelschützenhaus in Basel, CH, that housed Daniel Bernoulli's Physics Cabinet - images: Gina Gunaratnam/EPS
Author: Gina Gunaratnam
On 22nd September, the former home of the Physics Cabinet of Daniel Bernoulli in Basel was inaugurated as an EPS Historic Site.
During
his time at the University of Basel, Daniel Bernoulli assembled a large
collection of demonstration experiments which he used for teaching and
public lectures. These were housed in the Stachelschützenhaus ("house of
the crossbow men"). The building is still used by the university and is
currently the centre for clinical virology.
The event started at
the University of Basel. Ernst Meyer, Friedrich-Karl Thielemann and
Philipp Treutlein, from the Department of Physics, welcomed the
participants.
Anne Pawsey, Secretary General of the European
Physical Society (EPS), introduced the Society and its Historic Sites
programme. She was followed by Martin Mattmüller, from the
Bernoulli-Euler Society, who described the life of Daniel Bernoulli in a
captivating presentation which included descriptions of the experiments
and quotations from attendees at his lectures.
Stephan Rosswog,
from the University of Hamburg and Stockholm University, showed how
Bernoulli’s theorem remains relevant in the extreme conditions of
neutron star mergers. Rossweg highlighted the importance of
multi-messenger astronomy to obtain sufficient complementary data, as
well as the enormous computational challenge of simulating these complex
processes across huge length and time scales.
After the lectures,
attendees walked to the nearby Stachelschützenhaus, where they were
introduced to the building's current use for research. The assembly
visited a part of the house before gathering in front of the plaque
describing Bernoulli's achievements and where he kept his physics
devices. Anne Pawsey and Philipp Treutlein officially distinguished the
house as the 6th EPS Historic Site in Switzerland.
More info

EPS Secretary General Anne Pawsey explaining the Historic Sites Programme

Martin Mattmüller from the Bernoulli-Euler Society

Stefan Rosswog from the University of Hamburg and Stockholm University

The participants in front of the Stachelschützenhaus

Anne Pawsey and Philipp Treutlein officially inaugurating the new Swiss EPS Historic Site

The plaque in front of the Stachelschützenhaus
Tags:
Bernoulli
Daniel Bernoulli
EPS Historic Sites
History of Physics
hydrodynamics
multi-messenger astronomy
neutrons stars mergers
SPS
Stockhlom University
Swiss Physical Society
University of Basel
University of Hamburg
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Posted By Administration,
Tuesday 10 October 2023
Updated: Monday 10 June 2024
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The H. H. Wills Physics Laboratory (Royal Fort), at the University of
Bristol has been awarded EPS Historic Site status. To mark the award,
the university organised a one-day event on 13 September 2017,
combining a conference on the past and present work on particle physics
in Bristol, a public talk from a distinguished particle physicist, as
well as an unveiling ceremony for the plaque. Representatives from the
EPS and the IOP have been invited to attend the event.
Back to EPS Historic Sites
Tags:
distinctions
EPS Historic Site
H. H. Wills
Institute of Physics
IOP
particle physics
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Posted By Administration,
Monday 18 September 2023
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Author: Anne Pawsey
The EPS is a partner in the Erasmus+ project Discovery Space.
This project aims to integrate emerging technologies including
artificial intelligence (AI) into tools for teaching and assessment in
STEM (Science Technology, Engineering and Mathematics).
On the
technical side the project aims to develop an AI companion to accompany
students, whilst they carry out virtual and remote laboratory work. The
aim is to guide students though the experiment, providing hints and
steering the activity appropriately.
Such technical
developments need to be accepted and used by teachers in their
classrooms. To facilitate this the consortium will build a community of
teachers who will contribute to the design of the system so that it is
fit for purpose. Teachers will act as ambassadors, to guide their
community in adopting these new methods. The consortium will provide
training and professional development for teachers and support for them
to access Erasmus+ funds to participate.
The project will also produce a roadmap for the implementation of this technology after the completion of the project.
Now
in its ninth month, the consortium is currently in the process of
testing its tools to assess pupils’ cognitive skills and knowledge
acquisition and is building on the success of the first Discovery Space Summer School to further develop teaching materials integrating AI.
The project consortium, coordinated by the University of Bayreuth (Germany), consists of University of Deusto (Spain), Ellinogermaniki Agogi (Greece), Institute of Communication and Computer Systems (Greece), LabsLand (Spain), Athens Technology Center (Greece), European Physical Society Association (France), NUCLIO – Núcleo Interativo de Astronomia e Inovação em Educação (Portugal).
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Posted By Administration,
Thursday 14 September 2023
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Author: AYIMI
IYPT 2023
International Young Physicists' Tournament , IYPT 2023, was held in
Murree, Pakistan on 18th-25th July with participants from 14 countries.
Again such as previous IYPTs, participants challenged with each others
on selected problems from IYPT 2023 list. This IYPT had no Bronze
medalist and the first three teams got gold and up to team ranking 8 got
silver medal. Our team members from Iran who were selected from the
national PYPT (Persian Young Physicists' Tournament) couldn't get any
medals but in a panel with two finalists succeeded to be as the first
team!! The most important parameters in such a tournaments are jurors
who should be more experienced. Iran team members in IYPT 2023 were:
Ramin Abdollahzadeh (Captain), Anisa Kaviani Maram, Farhan Sadeghvandi,
Nita Jafarzadeh, Reza Niamanesh. The next IYPT will be held in Budapest,
Hungary in July 2024.
2nd International ISAC Olympiad
The 2nd International ISAC Olympiad was
held by Ariaian Young Innovative Minds Institute, AYIMI and ADIB
Artistic and Cultural Institute. The participants from different
countries in two sections, Art and Science, and in different categories
succeeded to get medal and certificate. Participants were from Iran,
Turkey, Brazil, Czech Republic, Mexico, Afghanistan and Pakistan. In
total : 36 Gold, 11 silver and 7 bronze.
Tags:
AYIMI
competition
EPS AM
EPS Associate Members
International Young Physicists' Tournament
IYPT
young physicists
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Posted By Administation,
Thursday 14 September 2023
Updated: Thursday 14 September 2023
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The European Physical Society (EPS) is happy to announce that the second edition of the EPS Forum will take place in the Henry Ford Building of the Freie Universität Berlin (FUB), Germany, from 25th-27th March 2024.
The EPS Forum builds on the success of the first edition held in Paris
in 2022. The EPS joined forces with its 42 National Physical Societies,
18 Divisions and Groups and 40 Associate Members (https://epsforum.org/v1).
After more than a year of preparation by 75 representatives of EPS
members all over Europe and the EPS staff, the first EPS Forum welcomed
487 participants including 184 students from 30 different countries.
The
second edition is expected to gather about 500 participants with a
majority of PhD students, Postdocs and early-career researchers. It will
include presentations and round-table discussions on the following
topics:
· Atomic, molecular and optical physics for quantum technologies
· Applications of nuclear and particle physics to society
· Condensed matter and its applications to industry
· Physical models for energy management, pollution and climate; neuromorphic computing
· Photonics.
The
EPS Forum represents a unique opportunity to interact with both
upcoming physicists and outstanding established researchers including
Nobel Prize and Wolf Prize winners. It will offer a series of scientific
talks bringing together researchers from all over Europe, CEOs and
managers from academic institutions, large research infrastructures,
multi-national companies, SMEs and start-ups involved in the above
fields of research.
The first day, called “Physics meets industry”,
will bring doctoral students and post-doctoral fellows closer to
physics-based companies. It will promote research and technological
developments carried out in the industrial sector and favour direct
exchanges between attendees.
The second day will host a general conference on physics in
the same fields, addressed from a more fundamental perspective and
featuring high-profile scientists from Europe and beyond. Round-table
discussions will also be dedicated to societal issues.
The third day will be devoted to the EPS Council, the Society's annual meeting.
Save the dates! The EPS Form will take place on 25th-26th March 2024 in BERLIN.
Students
The
EPS will once again support the attendance of students by offering a
reduced registration fee and support the travel and lodging expenses of
100 students.
A poster session will be organised to give young physicists the opportunity to present their scientific results.
Organisations and exhibitors
The EPS is convinced that the objectives of the Forum (details at https://epsforum.org),
match a number of organisations' and exhibitors' priorities. To promote
physics-based companies or institutions at the EPS Forum and to
increase their visibility, the EPS offers the following options:
‐ Attend the Forum as an exhibitor on 25th March and/or on 26th March 2024.
‐ Advertise an organisation by choosing a promotional package.
Sponsors
The
EPS offers sponsorship opportunities to support the attendance and
activities of early career researchers at the EPS Forum and to support
the attendance of scientists from Ukraine. These can be tailored to each
sponsor. Contact us for more details at secretariat@eps.org.
The EPS is actively preparing the second EPS Forum and looks forward to welcoming you in Berlin in 2024!
Download the poster of the EPS Forum 2024
Tags:
climate
condensed matter
conference
energy
EPS Forum
Freie Universität Berlin
FUB
nuclear physics
quantum technologies
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Posted By Administration,
Thursday 14 September 2023
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FLTR: GSI/FAIR Research Director Professor Karlheinz Langanke,
Professor Nu Xu, Professor Taka Otsuka
and Professor Volker Koch - Image credit: GSI/FAIR
13th September 2023. Press release GSI/FAIR. Three world-renown scientists, Profs. Volker Koch, Nu Xu and Takaharu Otsuka, are currently spending long-term research
stays at GSI and FAIR and its partner universities in Darmstadt and
Frankfurt. They are analyzing and interpreting current experimental data
and preparing the first scientific experiments at FAIR in fruitful
interdisciplinary cooperation.
Professor Volker
Koch and Professor Nu Xu are both from the Lawrence Berkeley Laboratory.
Volker Koch holds the professorship for theoretical heavy-ion physics
and has been the laboratory’s nuclear physics division head. Nu Xu is
professor for experimental heavy-ion physics and the former spokesman of
STAR, a flagship experiment at the Relativistic Heavy-Ion Collider
(RHIC) at the Brookhaven National Laboratory. Professor Takaharu Otsuka
held the chair of theoretical nuclear physics at the University of Tokyo
until his retirement. Taka Otsuka and Nu Xu are both recipients of
Humboldt Research Awards, while Volker Koch is currently an EMMI
Visiting Professor.
GSI and FAIR took the unique opportunity to
discuss with these colleagues in an interview the motivation why they
have chosen GSI for their long-term stay, and what personally fascinates
them from the many science options at FAIR. Despite very different
perspectives and different scientific expectations with regard to the
FAIR research pillars, the three scientists have one thing in common:
the anticipation of outstanding research prospects and decisive advances
in knowledge in a unique world leading research infrastructure at FAIR.
The whole interview can be read here:
GSI/FAIR: You all
three are world-leading scientists and come from prestigious
institutions. Why did you choose GSI for your research stays?
Volker Koch: The
Rhein-Main-Neckar region is the center of gravity in nuclear science,
in particular in my field of interest, which focuses on the properties
of the strong force at the high-density and high-energy frontiers as it
can be explored in heavy-ion collisions. There is for example the HADES
experiment, which has taken exciting data in their latest runs within
the FAIR Phase-0 program, which we try to understand now. It is of
great advantage to have many experts on campus and at the neighboring
universities with whom we can look at these data from very different
angles. In fact, I have missed such a stimulating scientific atmosphere
during the pandemic and I every much enjoy the daily discussion taking
place here. Of course, we also discuss the future opportunities, in
particular the CBM experiment at FAIR, which we hope will answer some of
the fundamental questions in our field of research.
Nu Xu: Indeed,
the phase diagram of Quantum Chromodynamics, which describes the
properties of the strong force as function of temperature and density,
has still several open fundamental questions. I was much involved in the
preparation and in the execution of experiments of the STAR
collaboration where we have tried to explore whether this phase diagram
exhibits a critical point like it is familiar to us from the phase
diagram of water. Unfortunately, the STAR experiment left a gap in the
data, which is needed to answer this question. The place from which we
expect the answer is the CBM experiment at FAIR. To prepare this unique
and scientifically extremely important experiment I am here.
Takaharu Otsuka: My
scientific interest is somewhat different from that of my colleagues as
I try to develop models, which describe the many facets of nuclear
structure. Here the frontier are exotic unstable nuclei, which for
example have a large number of extra neutrons compared to their stable
counterparts. These nuclei and their properties are, however, crucial if
we want to develop a general model, which describes the many phenomena
the nuclear many-body system exhibits. For example, we have learnt in
recent years that nuclear magic numbers, which are a cornerstone of
nuclear structure whose explanation was awarded a Nobel Prize, are
different in exotic from those in stable nuclei. We could recently show
that among others the tensor force plays a crucial role in these exotic
nuclei. In my career, I have benefitted very much from close contact to
experimentalists, which some years ago were my colleagues at RIKEN. Now I
think that in the future the NUSTAR experiments at FAIR will have the
leading role in understanding many aspects of the structure of exotic
nuclei beyond the present reach. In particular, I am interested in the
physics, which determines the limit of existence in very neutron-rich
nuclei where FAIR opens completely new perspectives. Therefore, I am
happy to intensify my collaboration with my theory and experiment
colleagues in Darmstadt. I hope that both sides will benefit from these
activities.
GSI/FAIR: Professor Xu, you mentioned the STAR
experiment at RHIC, which is one example that there are also other
facilities worldwide which explore the science which will be in the
focus at FAIR. Professor Otsuka, you referred to the Japanese flagship
facility RIKEN. Perhaps you can elaborate where you see the advantages
of FAIR and perhaps its uniqueness?
NX: The
Brookhaven activities are finished leaving important questions
unanswered. In my view, CBM is in the position to answer them. Actually,
if there were other facilities, which were better advanced than CBM, I
would have joined these activities. But there is none. If FAIR can
deliver SIS100 beams the CBM collaboration will be ready for data
taking. And the CBM experiment has the high-rate capabilities to decide
whether a critical point exists in the QCD phase diagram or not.
VK: Indeed,
to answer this fundamental science question statistics is the name of
the game and CBM has the capability to deliver the required rate of
data. This allows actually much more than to prove the existence of the
critical point. For example, one can also explore the symmetry energy at
densities twice or even three-times the value of saturation density, as
it exists inside of heavy nuclei like lead. Such high densities are of
crucial importance in many astrophysical environments, like
core-collapse supernovae or neutron star mergers. The CBM data will also
provide very valuable constraints for the nuclear Equation of State,
which governs the structure of neutron stars, which are the most compact
objects which one can study directly in the Universe. In fact, there
are so many upcoming activities in astrophysics opening the era of
multi-messenger exploration of the Universe, which all are intimately
related to science, which will be, often for the first time, explored at
FAIR. During my stay in Darmstadt, my colleagues and I have developed
several new ideas how this complementarity can be optimally explored. I
am really looking forward that FAIR will be switched on and the CBM and
NUSTAR experiments start. This will be a new game in town, as we say in
California.
TO: The FAIR facility offers
significantly higher bombarding energies than the other facilities. This
allows to explore mass regions in the nuclear chart which are not
easily accessible with other accelerators, making the global activities
complementary in many aspects. This opens exciting perspectives for my
research interest. It is very exciting that FAIR will soon deliver for
example first data on the very neutron-rich nuclei, which build the
third peak in the astrophysical r-process, which is often referred to as
the "gold peak". We have predicted the half-lives for the nuclei in the
gold peak and it will be nice to see whether we have been right. Let me
stress another important point. Also many activities at FAIR, although
unique on the global level, are very complimentary. Take the symmetry
energy, which my colleagues Volker Koch and Nu Xu want to study at very
high densities. It is also relevant for astrophysical applications to
know it at densities at and below saturation. This behavior can be
studied with the R3B experiment within the NUSTAR collaboration.
GSI/FAIR:
Your home countries have very strong activities in heavy-ion and
nuclear structure science. Which role does FAIR play for these
communities?
VK: The US Nuclear Physics
community is currently preparing its Longe Range Plan, which also
addresses the future opportunities of the research on high-density
nuclear matter, that is the behavior of the QCD phase diagram at high
densities as it will be explored at FAIR. I am not personally involved
in the writing team, but I know that the intellectual interest of my
theory colleagues in this field is tremendous. Personally, I am also
convinced that there will be a growing American participation in CBM.
NX: I
share the view of my colleague Volker Koch concerning the interest in
the US. But I like to add, that also in my mother country China there is
a very large interest in the CBM physics, carried by six institutions
including many postdoctoral and graduate students. The Chinese
colleagues have been involved in the STAR experiment at RHIC and bring
their expertise now to CBM. To underline the Chinese interest,
components of the time-of-flight detector system for CBM have been built
in China. They are tested and ready to be employed at FAIR. We need a
SIS100 beam.
TO: There is an existing strong
interaction between the Japanese and GSI activities in nuclear
structure, but also in other FAIR research fields like atomic or
biophysics. Some FAIR detectors developed by the NUSTAR collaboration
have already been tested and used in experiments at RIKEN. But the
exchange is in both directions. One interesting research field at FAIR
will be hypernuclei, which is regular nuclei to which a lambda particle,
which carries a strange quark, is added. Japan has a long history in
hypernuclear research. But now we bring activities to FAIR based on a
Memorandum of Understanding signed by RIKEN and GSI/FAIR where we
jointly open research on neutron-rich hypernuclei. FAIR provides the
SIS100 accelerator and the Super FRS, the equipment to produce such
really exotic nuclei, and RIKEN develops and builds a novel detector
which allows to study these hypernuclei. RIKEN has in fact very positive
experience with such collaborative efforts abroad, for example, with a
dedicated hadron physics program at Brookhaven. I am sure that also the
RIKEN-FAIR project will be a success.
GSI/FAIR: What is the scientific highlight you personally wish to see delivered by FAIR?
NX: With
its high-rate capability and the other available observables, CBM will
answer the question whether a critical point exists in the QCD phase
diagram, or not. CBM will also constrain the nuclear equation of state
to a level that it has a very strong impact on the understanding of
astrophysical objects like neutron stars or supernovae. I would like to
add that while the high-energy programs at CERN focus on the properties
of the quark-gluon plasma – the form of matter as it exists in the very
early phase of the Universe, here we concentrate on the properties of
matter at high densities. If CERN is the high-energy frontier, FAIR is
the high-density frontier. Both programs are complementary to each other
and are both necessary for understanding the QCD phase diagram.
VK: The
critical point and the equation of state are certainly also on the top
of my list. But CBM can do more, perhaps answer questions which we do
not even think about now. For example, recent lattice QCD calculations
predict that the interaction between two Omega baryons is attractive.
CBM with its very high event rate is likely the only experiment, which
can check this prediction.
TO: In general, I
expect from the NUSTAR experiments at FAIR decisive progress in our
general understanding of the nucleus as a many-body system, already from
phase 0 experiments and then more once FAIR is operational. It would
be quite exciting to understand the boundaries of nuclear existence as a
function of neutron excess but also in the regime of superheavy nuclei,
derived from nucleons as the fundamental building blocks and the strong
and Coulomb forces acting between them. But I personally would also
like to explore whether hypernuclei might be a tool to probe the
emergence of nuclear shapes. There are some hints, which have recently
emerged that nuclei might have a wider spectrum of geometric shapes than
usually assumed.
GSI/FAIR: Thank you very much for this
discussion. We wish you a successful stay in Darmstadt and many fruitful
returns to GSI and later to FAIR.
Tags:
EPS AM
EPS Associate Members
FAIR
GSI
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Posted By Gina Gunaratnam,
Tuesday 12 September 2023
Updated: Friday 15 September 2023
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FLTR: Monika Ritsch-Marte, Petra Rudolf and Ilaria zardo - images: Gina Gunaratnam/EPS
Author: Gina Gunaratnam
The award ceremony of the joint meeting of the Swiss
Physical Society (SPS) and the Austrian Physical Society (ÖPG) took place in early September
at the University of Basel. Started with several awards of the SPS, the event continued with the prizes attributed
by the ÖPG and with the distinction of the
European Physical Society (EPS) dedicated to female physicists.
Prof.
Petra Rudolf, chair of the EPS Equal Opportunities Committee and former
president of the Society, handed over the EPS Emmy Noether Distinction
2022 to Prof. Monika Ritsch-Marte (full career) and to Prof. Ilaria Zardo (mid-career).
Monika
Ritsch-Marte, from the Institute of Biomedical Physics, Dept. of
Physiology & Medical Physics, the Medical University of Innsbruck,
Austria, was awarded " for exceptional contributions to
optical microscopy and manipulation methods and for the promotion of
women’s careers in physics. "
Ilaria Zardo, researcher at the Department of physics of the University of Basel, Switzerland, was awarded "for
her contributions in the methodology of characterizing nanoscale
materials and the consequent discovery of their new functional
properties. "
The ceremony was followed by an
interview of both EPS laureates by Prof. Rudolf and a group photo with
laureates of all the presented prizes in the beautiful botanical garden
of the Swiss university.
More info

Petra Rudolf presenting the EPS Emmy Noether Distinction to the SPS-ÖPG audience at the University of Basel

Group photo with all laureates of SPS, ÖPG and EPS prizes in the university's botanical garden
Tags:
distinction
Emmy Noether DIstinction
EPS EOC
EPS Equal Opportunities Committee
medical physics
nanomaterials
ÖPG
prize
SPS
University of Basel
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Posted By Administration,
Sunday 10 September 2023
Updated: Tuesday 12 September 2023
|
Science on Stage is the European network for STEM
teachers focusing on the exchange of best practice teaching ideas. One
of its activities is bringing highly relevant topics and new
technologies to the classroom by developing teaching materials from
teachers for teachers.
Science on Stage is happy to inform you that it will start a new project with the topic “Quantum Computing in STEM
Education”. 20 secondary teachers can take part and they will work on
the topic for around two years from 2024 to 2026.
In the project,
teachers first take part in a teacher training about quantum computing
and then develop and test teaching materials with the following goals:
- usable directly in physics, mathematics and/or computer science classes by teachers with little previous experience;
- get students excited about the topic of quantum computing and show career opportunities in this area;
- knowledge transfer of the underlying, fundamental quantum mechanical concepts;
- promote analytical and critical thinking, teamwork and problem-solving skills;
- clarify the relevance of this technology for the future.
Application process:
20
secondary teachers can take part and work in international teams for
about 2 years. Please note that attendance at two two-day meetings in
early 2024 (either 26-28 January or 16-18 February) and spring 2025 is
mandatory. The project is organised by Science on Stage Germany and
supported by the Wilhelm and Else Heraeus Foundation. All travel and
accommodation costs as well as food will be covered.
You can download the application form. As the number of participants is limited to
20, the time of receipt of the application will also be taken into
account.
More information at www.science-on-stage.eu/project/quantum-computing
Interested teachers will note that the working language is English and that they need good language skills for this project.
Tags:
EPS PED
EPS Physics Education Division
quantum comuting
Science on Stage
teachers
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Posted By Administration,
Thursday 24 August 2023
Updated: Thursday 24 August 2023
|
Author: Gordana Medin
The third Hands-on Edition of the EPS
Technology & Innovation Group on optics, powerful lasers, wakefield,
plasma accelerators, and intense terahertz pulses, usually organized at
CERN in Geneva, this time took place at Petrovac, Montenegro, between
July 7 and 9, 2023. 34 students from Poland, Czech Republic, Croatia, and the
Balkans were present to build absorption/emission spectroscopy
experiments and measure transient currents in state-of-the-art timing
detectors developed for CMS and ATLAS High Energy Physics experiments at
the HL-LHC in CERN. For the first time, the Workshop was organized in a
hybrid mode: in-person and online. Eight students attended the Workshop
remotely (from Germany, Spain, Italy, and Portugal).
On
the first day, students received introductory lectures. Dusan Medin,
representing the local community, gave a talk titled: "Montenegro from
West to East" after the Chairperson of the event, Prof. Gordana
Lastovicka-Medin from the University of Montenegro welcomed
participants. This was followed by a talk given by Markus Nordberg from
CERN: "The importance and role of serendipity in instrumentation
innovation". Massimo Ferrario, senior scientist at INFN Frascati,
coordinator of the SPARC_LAB facility at the Frascati INFN Laboratories,
where the first FEL driven by a plasma accelerator has been recently
demonstrated, brought an outstanding talk: "Accelerating the future". In
his fascinating talk, Massimo introduced students to new acceleration
technique mechanisms and discussed the most interesting and inspiring
results and applications obtained so far, including a description of the
new accelerator facility EuPRAXIA based on plasma modules to built in
the next decade. A week later we learned that Massimo was one of the
three winners of the prestigious “2023 Enrico Fermi Prize” of the
Italian Physical Society (SIF). Congratulations to him! The president
of the EPS and research scientist at CEA (French Commission for Atomic
Energy and Alternative Energies), Luc Bergé, who is also a member of the
EPS-TIG Board gave a talk on THz Physics. Located between microwaves
and optical waves in the electromagnetic spectrum, terahertz waves can
now be exploited in molecular spectroscopy from plasma emitters produced
by femtosecond laser pulses ionizing gases such as air. Luc Berge
firstly overviewed the recent results on the plasma-based terahertz
spectroscopy of materials in the context of the project ALTESSE;
secondly, new THz radiation originating from the ponderomotively driven
in strongly magnetized plasmas was discussed. Mateusz Rebarz, a laser
expert from ELI Beamlines (Prague) who was also a demonstrator at the
Workshop, introduced students to the potential of the laser facility,
ELI ERIC while Prof. Gordana Lastovicka-Medin gave an overview of the
R&D on the Low Gain Avalanche Detectors (LGAD) that are now a mature
technology and baseline for the timing detectors at the ATLAS and the
CMS #experiments at LHC. She also overviewed the main features of the
Technique of transient currents (TCT). On the evening of day 1,
participants also enjoyed exploring the historical points of Petrovac,
local fortress and Gallery.
The
second day started with the students' poster presentations. The poster
session was aimed to give the students a chance to present the piece of
research that they are particularly proud of. At the same time, it was
an effective way for students to get to know each other, as well as for
the lecturers to get to know the participants of the workshop.
Additionally, Anna Grigoryan from Republic of Armenia, participating as
the and hands-on training. Representative of EPS Young Mind (on-line)
introduced students to the association “EPS Young Minds”. For the
Hands-on training, the two experiments were set: 1) Absorption and
emission spectroscopy, and 2) Exploring sensors LGAD with TCT set up.
The students were assigned into groups, each being in charge of
realizing one subcomponent of a tutorial experiment on said topics.
Since eventually all pieces had to be integrated into a complete
experiment they did not only have to work on the technical tasks, e.g.,
assembling the electromechanical and optical setup or establishing the
data acquisition, but also on the coordination of their work with other
teams, where communication and interpersonal skills in technology and
scientific environments was key. Lunch was offered on the beautiful
sandy beach where students enjoyed a break while swimming and enjoying
the local street food. In the evening they played some games (such as
chess and cards) at the beach and worked on creating presentations about
their experiments (focused on reflecting on what they learnt).
On
the third day, in the morning, before the resumption of the
experiments, each group was tasked with presenting the results obtained
the previous day. This allowed the students to think about what they
were doing after performing the experiment, and through the presentation
to make a recapitulation of what was done and think about the
interpretation and meaningfulness of the results. This session was
moderated by Eugenio Nappi from INFN Frascati. For us seniors, it was
inspiring to watch and observe how the diversity of the “collaborators”
backgrounds including their knowledge was brought into and affected the
co-developing process. Students had different disciplinary backgrounds
and they have been at different academic levels, so, all this brought
different but necessary pieces necessary for them to overtake personal
limits and grow up with a new skill needed not only for the sake of
intellectual development but also to grow as people. All over it was
very successful event, with a lot of fun!
Images by Gordana Medin and Nevena Živković










Tags:
ATLAS
CERN
CMS
EPS Technology and Innovation Group
EPS TIG
hands-on
intense terahertz pulses
meeting
Montenegro
optics
plasma accelerators
powerful lasers
wakefield
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