Are you a woman in physics in Germany or a German woman in physics abroad, and would you like to highlight your work within the "Physikerin der Woche" initiative? If so, don't hesitate to contact Dr. Ulrike Boehm at . Women in physics of all career stages from academia and industry can participate. Also, please feel free to suggest any suitable candidates.
You can find an article and posters about our initiative in the April 2018 issue and 2021 / 2022 / 2023 issues of the Physik-Journal. Please feel free to print the posters and advertise our initiative at your research institution. Participants of previous years can be found here: 2018, 2019, 2020, 2021, and 2022.
Weitere interessante Infomationen zum Thema Berufsvorbereitung für PhysikerInnen können auch auf den folgenden DPG Seiten gefunden werden: Berufsvorbereitendes Programm der DPG und DPG-Berufsvorbereitung online der jDPG
Prof. Dr. Antonia Statt (UrbanaIllinois) - Kalenderwoche 39
Antonia is an Assistant Professor in the Materials Science and Engineering department at the University of Illinois Urban Champaign. Before moving to the US for her academic career, starting with a postdoctoral fellowship at Princeton University, she completed her Ph.D. in Physics at the University of Mainz, Germany. Her research is motivated by the complexity of soft matter motivated by challenges in energy, environment, and technology. She is particularly interested in the crystallization and aggregation of polymers and colloidal systems and non-equilibrium effects like flow or evaporation. Aggregation of colloidal particles is a big area of focus in her group since it is important for many different systems, from paints to microplastics in our environment. Her work integrates empirical model development, statistical mechanics, applications of machine learning techniques, and highly efficient GPU-accelerated simulations.
Photo/Credit: Prof. Dr. Antonia Statt
M.Sc. Lea Kämmerer (Duisburg-Essen) - Kalenderwoche 38
Lea is a Ph.D. student in the group of Heiko Wende at the University of Duisburg-Essen. As a member of the SFB1242, she studies ultrafast non-equilibrium dynamics in condensed matter, with a focus on the investigation of ultrafast dynamics in spin-crossover molecules using time-resolved X-ray absorption spectroscopy.
Spin-crossover molecules have two distinct spin states, a low-spin and a high-spin state, which can be switched between by external stimuli such as light or temperature. Pump-probe experiments such as time-resolved X-ray absorption spectroscopy cannot be performed in a university lab, so she goes to the European XFEL, where extremely intense X-ray pulses are generated, which she needs to get the energy and time resolution to resolve the dynamics in spin-crossover molecules.
The picture was taken in the clean room of the European XFEL, where she successfully mounted the samples for the beamtime.
Photo/Credit: Tobias Lojewski, AG Wende
M.Sc. Jelena Köhler (Karlsruhe) - Kalenderwoche 37
Jelena is a doctoral researcher at the Institute for Astroparticle Physics (IAP) of KIT. Since her master's thesis at BUW, her research has been dedicated to understanding the highest energy processes in our Universe. To do this, she measures high-energy cosmic particles via their radio emission in the atmosphere.
She is part of the NUTRIG group, which aims to develop an efficient and scalable trigger system for the detection of cosmic rays and neutrinos using large-scale radio antenna arrays. Jelena’s work on the autonomous trigger mainly contributes to the GRAND project, a huge radio-antenna array for the detection of high-energy neutrinos in the development stage, but has general relevance for the radio detection technique.
In addition to her research, Jelena serves as a Ph.D. representative for her graduate school, KSETA, advocating the interests of her peers. Through the DAAD RISE program, she currently mentors a student from Penn State University, US, focusing on software development and air-shower reconstruction.
Photo/Credit: M.Sc. Jelena Köhler
Dr. Johanna Hartke (Turku, Finland) - Kalenderwoche 36
Johanna is a postdoctoral fellow at the Finnish Centre for Astronomy with ESO at the University of Turku in Finland. She is interested in how matter assembles and forms the most massive structures in the Universe. To do so, she studies the movement of stars in the outskirts of galaxies. Prior to moving to Finland, she was a fellow at the European Southern Observatory, where she worked as a support astronomer at the Paranal Observatory. The picture shows here inside the 4.1m VISTA telescope.
Photo/Credit: Dr. Johanna Hartke
M.Sc. Verena Feulner (Erlangen) - Kalenderwoche 35
Verena is currently pursuing her Ph.D. in quantum computing at the Chair for Quantum Theory at Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU) under the supervision of Prof. Michael J. Hartmann. Her current research focuses on superconducting quantum hardware. To process quantum information on larger scales, qubits and their interactions with each other need to be controlled. Verena is working on couplers that can implement interactions between different superconducting qubits. Her current research is on a multi-qubit coupler, where the idea is to couple more than two qubits or pairwise different qubits. During her master’s, which she did in the same group, she also looked at an ansatz for a quantum variational algorithm for a frustrated spin model whose ground state in larger systems cannot be calculated with classical methods.
Photo/Credit: FAU/Boris Mijat
M.Sc. Katrin Bolsmann (Aachen/Jülich) - Kalenderwoche 34
Katrin is a Ph.D. student at RWTH Aachen and Forschungszentrum Jülich. Last year, she finished her Master's degree in the Condensed Matter Theory group of Prof. Götz Uhrig at TU Dortmund University, where she investigated the switching process of antiferromagnets using Schwinger Boson Mean Field Theory. For this work, she was nominated for the INNOMAG e.V. Master Prize. Recently, she started her Ph.D. in the theoretical quantum technology group of Prof. Markus Müller based at RWTH Aachen and Forschungszentrum Jülich. In her new project, she investigates trapped Rydberg ions, which represent a promising novel emerging physical platform for scalable and fault-tolerant information processing.
Photo/Credit: M.Sc. Katrin Bolsmann
Dr. Antonia Schmalz (Leipzig) - Kalenderwoche 33
Antonia is a project manager at SPRIND GmbH (Federal Agency for Disruptive Innovation), where she is responsible for physics-related topics and projects in the field of microelectronics and computing. With a passion for new, emerging, exciting technologies, she supports innovators on their path to market success. Having completed her Ph.D. in laser-driven particle acceleration at the Max-Planck-Institute für Quantum Optics, Antonia is now coming back closer to those roots as she is leading the newly founded SPRIND-subsidiary Pulsed Light Technologies GmbH. The company focuses on developing high-intensity lasers for laser-driven inertial fusion. Working closely with fusion start-ups Focused Energy and Marvel Fusion, their shared goal is to pave the way toward a fusion power plant. Between those stages, she advised ministries at the state and federal levels on research funding for projects in microelectronics with a focus on chip design and semiconductor technologies.
Photo/Credit: Dr. Antonia Schmalz
Jun. Prof. Dr. Jana Günther (Wuppertal) - Kalenderwoche 32
Jana is an assistant professor (Juniorprofessorin) at the Bergische Universität Wuppertal. Her research focuses on studying the QCD phase diagram using lattice gauge theory methods. In particular, she is concerned with the behavior of QCD matter at finite densities, which is a particular challenge for lattice QCD calculations. Here, the notorious "sign problem" prevents the use of the established Monte Carlo simulations, which is why new methods are sought, or extrapolations are used to solve QCD in this domain. The knowledge gained in this way can be used to understand heavy ion collisions at particle accelerators and theoretically explain the results obtained there from first principles. To reproduce the experimental conditions in lattice QCD simulations, she uses the method of analytical continuation from imaginary chemical potential.
Learn more about Jana in an interview conducted by her university.
Photo/Credit: Prof. Dr. Jana Günther
Dr. Kathrin Aziz-Lange (Oberkochen) - Kalenderwoche 31
Kathrin is Head of Coating and Surface Roughness Metrology at ZEISS Semiconductor Manufacturing Technology in Oberkochen, Germany. The department of around 80 scientists and engineers focuses on the development of metrology processes that enable high-precision measurements of optical components for the extreme ultraviolet (EUV) lithography optics manufactured by ZEISS. These optical systems are later integrated into microchip manufacturing machines. The accuracy specifications of these systems range into sub-nanometer dimensions and are often beyond everything that can be found on the market. Therefore, they also pose great challenges for the development of the metrology machines and processes for their components concerning precision, size, and reliability. The spectrum of methods in Kathrin’s responsibility covers, amongst others, atomic force microscopy, interferometry, defect detection, and EUV-reflectometry and allows, e.g., to prove surface roughness down to sub-nanometers.
Before joining ZEISS, Kathrin held a Junior professorship at Bielefeld University and was a Helmholtz Young Investigator group leader, focusing on solar fuel research.
Photo/Credit: Carl Zeiss AG/Manfred Stich
Dr. Meike Küßner (Bochum) - Kalenderwoche 30
Meike is a post-doc at Ruhr-Universität Bochum. She searches for hints of exotic hadrons in the experimental data from the BESIII experiment. Understanding how exotic hadrons are formed contributes to the fundamental understanding of mass generation in strong interaction. By interpreting the analyzed data using highly sophisticated partial wave analysis techniques, Meike contributed to the interpretation of light hybrids and glueball candidates. Besides being involved in data analyses, she is working on building up the forward electromagnetic calorimeter of the future PANDA experiment. The PANDA experiment will use proton–antiproton annihilation events from the future FAIR accelerator facility at GSI Darmstadt to study strong interaction physics at medium energy, including hadron spectroscopy, search for exotic hadrons, hadrons in media, nucleon structure, and exotic nuclei.
Photo/Credit: Dr. Meike Küßner
Dr. Anna Chrobry (Bremen) - Kalenderwoche 29
Photo/Credit: Dr. Anna Chrobry
Dr. Anjana Ashok (Hannover) - Kalenderwoche 28
Anjana is a recent Ph.D. and now a Postdoctoral Fellow at the Max Planck Institute for Gravitational Physics, Hannover. She searches for elusive, continuous gravitational wave signals in the data from Advanced-LIGO detectors. Continuous gravitational waves are expected from rotating neutron stars owing to a non-axisymmetry in their mass distribution. Electromagnetic observations of neutron stars as pulsars provide valuable information about the object. Using this information, Anjana predicts the shape of the gravitational wave signal generated by the neutron star and carries out a ‘targeted’ search for the signal, employing an approach that binds multiple messengers from the neutron star. Starting next year, she will work on pulsar timing arrays, where pulsars and gravitational waves are involved in a story different from the one in her Ph.D. research.
Photo/Credit: Dr. Anjana Ashok
Dr. Chiara Lindner (Freiburg) - Kalenderwoche 27
Chiara is a scientist researching novel techniques for spectroscopy at the Fraunhofer Institute for Physical Measurement Techniques in Freiburg.
Her research focuses on using entangled photon pairs for sensitive high-resolution mid-infrared spectroscopy. The idea is to use a correlated pair of one mid-infrared (for sample interaction) and one near-infrared photon (for highly sensitive detection) and transfer the information between them using quantum interference effects. As Chiara and her colleagues found out, the quantum interferometer can be operated in close analogy to a classical Fourier-transform spectrometer, which greatly improves the spectral resolution and measurement accuracy.
For her Ph.D. studies, Chiara has received the Quantum Futur Award (1st place), awarded by the BMBF, and the Hugo-Geiger Preis (2nd place) awarded by the Freistaat Bayern and the Fraunhofer Gesellschaft.
Foto-Rechte: Dr. Chiara Lindner
M.Sc. Anna Ravensburg (Uppsala, Sweden) - Kalenderwoche 26
Anna is currently writing her Ph.D. thesis on improving the crystal quality in single crystalline magnetic thin films, a work she conducted in the group of Prof. Vassilios Kapaklis at Uppsala University in Sweden. Limiting the amount of grain boundaries and crystallographic defects in such films enables the growth of high-quality artificial multilayered materials. Her main focus is to understand epitaxial metal/oxide interface structures to tune magnetic properties like interlayer exchange coupling in superlattices or THz emission in other spintronic devices for various technological applications.
Foto-Rechte: M.Sc. Anna Ravensburg
Prof. Dr. Dragana Ilic (Hamburg, Belgrade) - Kalenderwoche 25
Dragana is a Humboldt Fellow at the University of Hamburg and an Associate Professor at the University of Belgrade, Serbia. She has been engaged for many years in the optical spectroscopy of active galactic nuclei (AGN), focusing on resolving the inner regions through optical time-domain studies and reverberation mapping (RM). She has been fascinated with complex emission line features seen in optical AGN spectra, trying to understand their origin. For these studies, she contributed to the development of the open-source software for AGN spectral analysis - FANTASY. Lately, she has been intensely involved in preparation for the exploitation of the AGN time series from the Vera Rubin "Legacy Survey in Space and Time" (LSST) project. She is the Program Manager of the SER-SAG international in-kind team, which aims to employ photo-RM on AGNs and to compile a catalog of possible candidates for close-binary AGNs from the LSST survey. She advocates for diversity, equity, and inclusion in science on every level.
Foto-Rechte: Prof. Dr. Dragana Ilic
Dr. Micol Alemani (Potsdam) - Kalenderwoche 24
Micol is passionate about physics education research. She coordinates and teaches introductory physics laboratory courses at the University of Potsdam and, in recent years, has redesigned them to engage students collaboratively and creatively in authentic experimental activities.
She is doing research on students' learning in these contexts and works on developing effective teaching methods to develop students' experimental skills.
Before working in physical education research, she did physics research in molecular electronics and nanomaterials in Germany and the United States.
Pictured is Micol with four students working on an experimental project.
Foto-Rechte: Dr. Micol Alemani
M.Sc. Carina Kanitz (Ulm) - Kalenderwoche 23
Carina is an experimental physicist at the German Aerospace Center (DLR), Institute for Quantum Technologies, in Ulm, studying the quantum mechanical interaction of single atoms with two-dimensional materials like graphene. The diffraction of atoms at the grating structure of two-dimensional materials holds the potential to allow damage-free imaging and characterization of membranes. Additionally, atom diffraction at gratings could be the foundation for new sensors with unachieved precision due to the quantum nature of the effects at play.
Carina studied physics at FAU Erlangen-Nürnberg and did her master’s thesis in experimental nuclear physics at CERN. Currently, she is pursuing a Ph.D. at DLR and the University of Ulm.
Foto-Rechte: M.Sc. Carina Kanitz
Dr. Ulrike Kraft (Mainz) - Kalenderwoche 22
Ulrike is a Lise-Meitner-Research-Group leader for Organic Bioelectronics at the Max Planck Institute for Polymer Research in Mainz and works at the intersection between Physics, Chemistry, and Materials Science.
Ulrike and her group are interested in organic electronic materials such as semiconducting and conducting polymers and small molecules, the charge transport through these materials, and their application in flexible and stretchable electronic devices such as organic field-effect transistors and biosensors. Due to their printability, mechanical flexibility, and low Young's modulus that is in compliance with biological tissues, organic electronic materials and devices offer the potential to revolutionize personalized medicine and health monitoring applications.
Furthermore, it is Ulrike’s aim to characterize and develop environmentally friendly and biodegradable electronics for sustainable applications.
Foto-Rechte: Dr. Ulrike Kraft
Dipl.-Phys. Leli Schiestl (Berlin) - Kalenderwoche 17
Leli works remotely as a Data Engineer at Mozilla. Data engineers' job is to make data usable for data analysts. That includes finding relevant data, bringing the raw data in a useful format, and then automating that process for constantly updating data. Each new dataset is a new puzzle to solve, understanding how it has been generated, what questions can be answered with it - and equally or more important, what questions can not be answered with the current data.
In her free time, Leli is a member of "feminismus und computer kram," an online hackspace for women, non-binary and trans folks, and loves to put LEDs on everything.
Foto-Rechte: Dipl.-Phy. Leli Schiestl
Prof. Dr. Marina Gerhard (Marburg) - Kalenderwoche 13
Marina has held a tenure track position (W1) at the physics faculty at the Philipps-University Marburg since 2021. Her research interests focus on the optical properties of organic and hybrid semiconductors. Molecular materials are very versatile building blocks for organic electronic devices, and the flexibility of this material class can be even further enhanced in heterostructures. To understand the processes emerging after the absorption of light, e.g., photocurrent generation in an organic solar cell, it is important to comprehend the photoexcitation dynamics in time-resolved experiments. Marina’s junior research group is specialized in time-resolved photoluminescence spectroscopy combined with spatially resolved experiments. With this framework of techniques, it is possible to gain insight into the fate of bound electron-hole pairs. These so-called excitons are the primary photoexcited species in organic semiconductors. A part of the group’s research is embedded in the CRC 1083 “Structure and Dynamics at internal interfaces”.
Foto-Rechte: Prof. Dr. Marina Gerhard
M.Sc. Celina Hellmich (Braunschweig) - Kalenderwoche 11
Celina is a Ph.D. student at the TU Braunschweig and is currently a member of the working groups Nanostructuring and Microsystems Technology at PTB. There she contributes to the further development of high-precision measurement methods of 3D microscopes.
To measure accurately and with high precision with a microscope, it must first be calibrated with so-called standards. But in 3D microscopy, it is not only necessary to calibrate the lateral and height scales but also the calibration of the flatness error of coordinate planes and the shear of coordinate axes. 3D standards meet these requirements. However, currently used 3D standards are manufactured with focused ion beams. Each standard is, therefore, a cost-intensive custom-made product that also requires time-consuming calibration. Celina and her colleagues are developing a wafer-based mask process to produce 3D standards. This way, many structures can be reproducibly produced and adapted to calibrate the respective device.
Foto-Rechte: M.Sc. Celina Hellmich
Dr. Elena Redaelli (Garching/Munich) - Kalenderwoche 8
Elena is a Minerva group leader at the Max Planck Institute for Extraterrestrial Physics in Garching (Munich). Since she was a child, she has been deeply fascinated by the night sky, but she also enjoyed chemistry. When, during her master's studies, she discovered the astrophysics branch of astrochemistry, it was love at first sight. Elena’s work aims at understanding how stars and planetary systems are born, using molecules as a probe to investigate the chemistry and physics of star-forming regions. The main targets of her research are the densest and coldest phases of the interstellar medium in the Milky Way, where protostars are about to form. In order to detect the faint emissions from different molecular species, she uses radio telescopes, such as the IRAM 30m antenna in Sierra Nevada, Spain, shown in the picture.
Foto-Rechte: Dr. Elena Redaelli
Dr. Franziska Glassmeier (Delft) - Kalenderwoche 7
Franziska is an Assistant Professor at TU Delft and a Branco Weiss Fellow. Her research is broadly motivated by the complexity of clouds and approaches to capture this complexity – with the goal of better constraining the role of clouds in climate projections. Franziska is especially interested in the intriguing effects of cloud ice, the diverse interactions of clouds with atmospheric aerosol, and the marvelous patterns that cloud fields exhibit. Such patterns are strikingly visible in satellite images like the one behind her. Together with her group, she explores these phenomena by combining traditional process-based approaches and data science with concepts from complex systems theory. Before obtaining her Ph.D. in Atmospheric Physics from ETH Zurich, Franziska studied Physics at the University of Göttingen and completed her diploma thesis at the Max Planck Institute for Dynamics and Self-Organization.
Foto-Rechte: P. Alinaghi
Dr. Munan Gong (Garching/Munich) - Kalenderwoche 4
Munan is a postdoctoral researcher at the Center for Astrochemical Studies at the Max Planck Institute for Extraterrestrial Physics in Garching, Germany. She is interested in learning where we come from - how stars and planets form in the universe. She uses supercomputers to simulate the movement of gas and dust in galaxies, which eventually collapse under gravity to form stars and planets similar to our solar system. Her research helps to answer the questions such as how efficiently stars can form in galaxies and what environments are suitable for planet formation. Munan is also passionate about bringing astronomy to the public. Recently she worked with Soapbox Science Munich to discuss the mystery of the Christmas Star (and what astronomers think about the appearance of stars in the sky) in this video.
Foto-Rechte: Dr. Munan Gong
Dr. Birgit Stiller (Erlangen) - Kalenderwoche 3
Birgit is the leader of an independent Max Planck Research Group at the Max Planck Institute for the Science of Light in Erlangen. Her scientific focus is on experimental research in quantum optics and nonlinear photonics. At the heart of her research group is the interaction of light waves with sound waves – an effect that can enable versatile processing of optical information and manipulation of quantum states of light. The applications of her research lay within the areas of quantum technologies, such as secure quantum communication and novel optical computing approaches. Before Erlangen, she spent several years at the University of Sydney in Australia and earned her Ph.D. from the CNRS FEMTO-ST Institute in France.
A public talk on her science in German can be found here.
Foto-Rechte: SAOT, Max Gmelch
Dr. Larysa Baraban (Dresden) - Kalenderwoche 2
Larysa is an ERC Consolidator grantee and the head of the research group 'Nano-Microsystems for Life Sciences' at Helmholtz Zentrum Dresden Rossendorf (HZDR) in Germany. Their mission is the development of smart miniaturized biosensing devices and systems using nanoscale materials and advanced microfluidics as building blocks. These systems are very relevant to find new routes and parameters for the characterization of biomolecules and cells relevant for cancer.
Foto-Rechte: Andre Wirsig, HZDR
M.Sc. Christina Möller (Göttingen) - Kalenderwoche 1
Christina is currently writing up her Ph.D. work on ultrafast magnetism with extreme ultraviolet light in the group of Prof. Stefan Mathias at the University of Göttingen. Light with such short wavelengths (~ 20 nm) has many advantages for the investigation of different elements in complex magnetic materials, but it takes some effort to generate this light in the first step. This combination of laser and solid-state physics on the ultrafast timescale is what Christina enjoys the most. Her research paves the way to gain a microscopic understanding of the magnetic behavior after an optical excitation with a femtosecond laser pulse - a question that is still puzzling many researchers in the field.
Foto-Rechte: M.Sc. Christina Möller