DESY Summer Student Program 2023-2024 | Germany

Are you considering joining this the summer program for students in a developed nation? Your luck has led your to the correct place. DESY Summer Student Program 2023-2024 in Germany is now open to students interested in careers in the fields of physical sciences as well as computing, and other related sciences. The university offers these courses each year to improve the abilities of all students around the world by offering students the chance to participate in project-based work. The greatest benefit in the intern program is that  it is split into two types of work projects: on-site and online. It is a full commitment from the beginning to complete the project you are enrolled in.

The DESY internship in 2023 is open to all who are an incoming graduate or graduate student in the master’s degree program. The program will focus on professional activities that are related to your preferred field and will include a series of lectures. The activities related to your field will aid you in meeting the challenges of your professional growth and the lectures will help enhance your knowledge of the subject. Lectures will be presented in the English and therefore students from abroad who have a good grasp of English are able to easily grab the opportunity through zoom or webcast even while in their own home. After the course, you’ll think that your skills in research will have enhanced.

This DESY intern program for summer in Germany will allow participants to participate in the activities of projects, which are split into three major program areas, i.e., Program A B, Program Z, and Program A. The program will allow you to play using your experience with Synchrotron radiation in Hamburg as well as studying elementary particles, accelerators, and computer science at Hamburg as well as research in Astro particle Physics, Quantum Mechanics and acceleration at Zeuthen. You can receive the appropriate advice through the experiences that alumni of the program you are interested in. Additionally, you’ll get the chance to live near Berlin which is a wonderful city with art galleries and stunning historical landmarks. So, it is essential to take this route as it can provide you with an additional opportunity for exploration. DESY which is sponsoring this professional training program for you is among the most renowned accelerator centers in the world. Researchers have the opportunity of studying the microcosm of all kinds that are considered significant for living, ranging in size from collisions of small elementary particles, to the behavior of nanomaterials, to bio-molecular processes. The detectors and accelerators they use are unique in their design and will aid students as sophisticated research instruments. Because of this exceptional quality, more than 3000 guest researchers from more than 40 nations visit DESY every year. Students who are dedicated will have the chance to gain knowledge from top experts and advanced technologies in an inter-disciplinary environment.

DESY Summer Student Program 2023-2024 Germany:

Country:

• Germany

Organization:

• The Deutsches Elektronen-Synchrotron (DESY)

Duration:

• This DESY training program 2023 Germany begins in July, and will last for seven weeks.

Dates:

• DEST International Summer Student Program DEST International Summer Student Program runs from 18th to 07th September.

DESY Summer Student Program 2023-2024 Germany Benefits:

• 1200 euros per month in subsistence allowance is given to all.
• Residents of Hamburg and the surrounding areas are eligible to take advantage of the subsistence allowance , which is 850 euros per month.
• The cost of travel will be reimbursed regardless of whether you been on a train, plane or car. (Check for the rules on this page.)

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DESY Summer Students program in Germany 2023-2024 Eligibility Criteria:

• The applicant who has completed the three-year full-time education at the university level in computing, physics, or other relevant disciplines, you can be a good candidate for.
• If they have completed their Bachelor’s degree, they is a prerequisite to be eligible to apply.
• If you have completed your Bachelor’s degree, and are currently seeking a Master’s is a possibility to apply.
• It is unlikely that you have used the summer program offered by DESY prior to.
• Being able to speak English.
• Being able to use computers effectively.
• You must have a vaccine that is EU-Conform.
• It is essential to commit to for the entire duration of the program DESY.

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Application Procedure For DESY Summer Student Program 2023-2024 in Germany?

• Students need to apply via their official site DESY directly.
• Students must first identify the available projects and then choose their preferred options for online or on-site projects.
• Students living in Germany are eligible to apply for on-site work.
• Students from all over the world can apply online for online projects.
• Complete the appropriate fields and submit the online form.
• Make sure you submit the necessary documents required to be provided when filling out an application.
• The deadline for applications is the 31st of January in 2023.The students who were selected will receive an email confirming their selection and they will be contacted to determine their ability to participate in the selected projects, too.Check Also: Stanford University Scholarship 2024-2025 USA | Apply Now

Programs Offered by DESY Summer Student Program 2023-2024:

Photon Science (only in Hamburg)

• Students form groups of photon science at DESY involved in applied and fundamental research in the areas of biology, physics as well as chemistry, crystallography materials science and geoological sciences. Students will be working as part of the European XFEL program. This includes taking part in the making and implementing measurements, evaluating the data collected, as well as technical enhancements to the instrumentation.

• A1. Nanoscience and solid-state physics
  Students will be able to work across a wide range of subjects that include the creation of ultra-clean, well-defined surfaces, to the development of nanostructures using molecular beam epitaxy , sputtering and molecular beams and methods for the analysis of these structures using surface sensitive Diffraction of X-rays with conventional instruments for analysis of surfaces, including scan electron microscopy (SEM), atomic force microscopes and X-ray photoelectron spectrum. In further theoretical research, an introduction to the diffraction analysis techniques is given.
• A2. Molecular sciences:
  Students are part of groups that conduct research in biology, chemistry and physics, with the goal of unraveling the structure-function relation of molecular science. Research involves the study of the molecular structure and dynamic of systems that range from tiny molecules through nano-objects to macromolecules in biological systems and viruses as well as cells. These experiments push limits of spatial and temporal resolution using novel X-ray, electron, or ultrashort-laser-pulse sources. The projects include sample preparation, imaging tests as well as data analysis.
• A3. Soft-matter sciences:
  Students are taught methods to analyze the nature and behavior of complicated glasses and liquids like small angle X-ray scattering (SAXS) employing coherent X-ray beams and X-ray photon correlation spectroscopy (XPCS) and cross-correlation analysis of X-rays (XCCA). Additionally, they create colloidal samples within our lab for chemistry. Experiments with laser scattering setups on self-synthesized colloidal samples and analysing and interpreting the results will allow them to improve their programming abilities as well as to critically discussion of results from experiments.
• A4. The development of experimental techniques:
  Students are part of groups that develop innovative experimental methods, such as scattering and diffraction imaging, spectroscopy, and diffraction. The unique capability of X-rays in the form of probes allow the examination of a specimen in specific samples, such as pressure cells or chemical reactors. Topics covered include ultrafast time-resolved diffraction or in-situ scattering techniques, imaging , and microscopy using coherent X-rays tomography, X-ray optics , scanning microscopy, nanofocusing and microspectroscopy.
• A5. Lasers and optics
  Students are part of groups that develop laser sources, diagnostics and measurement methods as well as their application. The topics covered are diverse of ultrafast lasers, high-power as well as high-energy lasers Free-electron Laser (FEL) seeds, powerful fields optical pulse synthesizing, frequency combs, phase stable laser sources laser spectroscopy, powerful field THz pulse studies the X-ray pulse diagnostics method High order harmonic generation, attosecond science, as well as ultra-fast nano-optics. Projects cover electronic devices, lasers, programming as well as data analysis and simulations.
• A6. Theory and Computing:
  Theory research projects have a direct relationship to experiments or the development of innovative methods to understand the physical properties of matter. The use of a wide range of numerical methods and a deep knowledge of the theory behind it is essential. Students are challenged to solve this Schrodinger equation that describes highly excited systems of many electrons and The timing-dependent Schrodinger equation to describe dynamical processes; methods for nonperturbative radiation-matter interaction; quantum-chemical simulations; as well as the creation of algorithms to tackle specific imaging and photon science issues.

Program B: Research of Elementary Particles Acceleratorsand Theory of Experimental particles and computing:

Explorations in Elementary Particle Physics
The research on the fields B1-B3 is specifically focused on the areas of:
— the experiments ATLAS, CMS at the proton-proton-collider LHC,
-the plans in preparation for further experiments with particle Physics,
– The Belle II experiment and
— the test ALPS IIat DESY.
The various activities are categorized by the following types:

• B1. Analysis of Physics (software-oriented ):
  Students take part in one of the physics-related analyses conducted within the DESY ATLAS and CMS groups, which are in the fields of electroweak as well as Higgs Physics measurement of standard models, QCD and top quark Physics, and search for new Physics. Additionally, they are part of in the DESY Belle II group for analysing flavours in physics, as well as the International Linear Collider group preparing the physics analysis of data to come. The B1 students analyze real data or imulated data, and participate in specific analysis tasks, such as optimizing the signal to background separation by the use of machine learning or fitting new physical signals with the existing data.
• B2. Processing of data (software-oriented ):
  The students focus on creating specific software necessary to perform Physics measurements. Students contribute to the creation of algorithms and code for specific fields like reconstruction of the physics objects (particles) using detector data, event trigger and calibration of detectors as well as monitoring the quality of data and efficient and effective analysis of the physics using detected particles. Another topic is simulation of events.
• B3. The development of equipment for testing (hardware-oriented ):
  The development of equipment for experimental purposes (hardware-oriented)
  Students are part of experimental groups that work to develop detectors. e.g. ATLAS as well as CMS in CMS at the High-Luminosity LHC, the ILD, BELLE II and ALPS II. The teams at DESY are working on gaseous detectors, silicon trackers Data acquisition systems and testbeams. Students are involved in lab and testbeam configurations as they prepare and conduct test measurements using prototypes, and analyze and interpret the data gathered.
• B4. The research on accelerators: Students are part of groups that work on the design and development of accelerators. Projects include prototypes for an linear collider with e+e with a focus on superconducting cavities for RF and beamline instruments along with plasma wakefield accelerator. In Zeuthen students are actively involved in the creation of the test facility PITZ.

• B5. Theoretical Analysis of Elementary Particles:
  Students gain an understanding into the broad scope of research that is conducted at Hamburg in the DESY Hamburg theory group and in Zeuthen at the DESY Zeuthen theory group and which is part of the NCI institute. Based on their prior experiences, the typical activities vary from reading further, and discussions of theories and research methods, and even involvement in research projects that are simple. Students are encouraged to specify on their application whether they prefer the particular area of research conducted in the theoretical groups. At a minimum, knowledge base (e.g. from lectures) is required to be considered for a particular project in the particular field.
• B6. Computing:
  At the DESY Hamburg students can take part in a variety of areas related to scientific computing like Grid and Cloud Data Management (dCache) and high-performance (HPC) as well GPU as well as in the infrastructures used for analysis. At Zeuthen students can also take part in testing and software development to create high-performance computer systems that are parallel. Zeuthen offers in addition to carry out projects in the field of quantum computing within the Center for Quantum Technology and Applications https://quantum-zeuthen.desy.de
• Common relative percentages of the total number of projects within the various B zones are:

B1(33 percent), B2(8%), B3(33%), B4(12 percent), B5(10%) and B6(4 %).

Program C: Research on Astroparticle Physics:

We study high-energy processes within our universe, and also study the communication between space and earth. Students can choose summer projects available in the areas of the analysis of physics, instrument design and the theories of astroparticle Physics.

• C1. Astroparticle Physics Analysis and Observations:
  Analysis of Physics in the scope of gamma-ray observatories, such as CTA, H.E.S.S., MAGIC and VERITAS The IceCube neutrino observatory optical as well as UV telescopes, and the future detectors for high-energy Astrophysics. The projects include the analysis of the data obtained from the observatories listed, algorithm creation, transient detection techniques and research in advanced computing as well as machine learning methods.
• C2. The Instrumentation used to Astroparticle Physics:
  The activities include the creation of astroparticle experimentation instruments that include readout electronics, radio equipment Photo detectors and semiconductor sensors as well as optical instruments.
• C3. Theoretical Astroparticle Physics:
  Students can participate in research projects involving the study of astrophysical phenomena, and the analysis of data from many high-energy messengers. Research includes the theory-based treatment of particle acceleration high velocity outflows, turbulent waves, as well as gravitational waves.

Application Deadline:

The Application deadline is 31st Jan 2023

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