Electron Stretcher Facility ELSA

The electron stretcher facility (ELSA) includes an electron accelerator and various experimental facilities for basic research. The accelerator delivers a beam of polarized or unpolarized electrons with variable energy up to 3.5 GeV with a high duty cycle.

For the main research area of ​​hadron physics currents of several nanoamperes can be extracted for single and double polarization experiments. As part of national and international collaborations, photo- and electro-produced final states of excited nucleons are examined using highly developed detectors with particular sensitivity for photon-rich states over large solid angle acceptances.

Since 2016 a dedicated beamline is available for testing detectors in high-energy physics, which delivers a direct electron beam with a maximum energy of 3.2 GeV. The extracted beam current can be varied over a wide range from attoamperes (a few kHz electron rate) up to 100 pA. Up to four measuring stations are available for internal and external users for irradiation experiments.

News
NRW Minister Ina Brandes visits the ELSA electron accelerator

Ina Brandes, Minister for Culture and Science of the State of North Rhine-Westphalia, has visited the electron accelerator "ELSA" on the Poppelsdorf campus of the University of Bonn. The large-scale device has been reliably delivering the latest findings for research into the building blocks of matter for over three decades. It is part of a 70-year tradition of Nobel Prize-winning accelerator research at the University of Bonn.

"Color meets Flavor" enters the next round

The cluster initiative “Color meets Flavor“ – Search for new phenomena in strong and weak interactions was given the green light to apply for funding as part of the Excellence Initiative of the German government and federal states. The German Research Foundation and the German Council of Science and Humanities made the announcement earlier today.

Experiments at ELSA

A significant part of the research activity at the ELSA accelerator is dedicated to the field of hadron physics. For this purpose two beamlines are available. A third beamline is used for the characterization of new particle detectors by both internal research groups (SILAB) and external groups. The same beamline is also used for fundamental research on novel methods of radiation therapy in cancer medicine.

Hadron physics experiments
Hadron physics experiments front: BGOOD, rear: CB ELSA/TAPS © ELSA-Group

Hadron Physics

 
Two collaborations in the field of hadron physics (Crystal-Barrel+TAPS and BGOOD) use sophisticated detector assemblies to study photoproduction of mesons at the accelerator facility.

Measuring station for detector tests E3
Measuring station with various detectors © Physikalisches Institut

Detector Development

 
At the accelerator facility, there is a measurement station where the extracted electron beam (up to 3.2 GeV) is used for the characterization of new particle detectors. The intensity of the electron beam can be precisely varied over a wide range from attoamperes (corresponding to an electron rate of a few kHz) to 100 picoamperes.

A Cherenkov light beam illuminates a biological problem in a sample vessel
Cherenkov light during irradiation of a biological sample © ELSA-Group

Medical Physics

For several years now, the accelerator has also been used for basic research in cancer therapy with usage of the high-energy (> 1 GeV) electron beams with short pulse duration (< 1 µs) in cancer therapy.

The Accelerator

ELSA-2022-05_20240604_en.png
© ELSA-Group

The accelerator facility is located partly in a hall next to the Physics Institute (booster synchrotron, hadron physics experiments), and partly in a tunnel under the buildings (stretcher ring). The booster synchrotron and the associated hall were built in the 1960s. The stretcher ring was added in the 1980s.

Guided Scientific Facility Tours

We offer scientific tours of the accelerator facility for interested upper school classes and students. Students should take a physics course and, if possible, be familiar with the fundamental physical concepts that are used in accelerator physics.

Contact

Spokesman of the board

Avatar Desch

Prof. Dr. Klaus Desch

1.035

Group Lead

Avatar Proft

Dr. Dennis Proft

0.042

Secretariat

Avatar Germann

Sabine Germann

Radiation Safety Office PI

0.040

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