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In serial crystallography, crystals are injected into an x-ray beam. When the beam and crystal collide, light beams are deflected. The deflected light beams are recorded by a detector. The structure…
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Protons are among the building blocks of all everyday matter. Measuring these building blocks precisely not only provides well-founded insights into their structure, but also helps to refine the…
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The Laboratory of Particle Physics (LTP) at the Paul Scherrer Institute pursues fundamental research, addressing some of the most up to date questions in modern, accelerator-based particle physics.…
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The Paul Scherrer Institute - PSI - is the largest research centre for natural and engineering sciences within Switzerland. It offers a unique combination of accelerators and large research…
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The Laboratory of Particle Physics (LTP) at the Paul Scherrer Institute pursues fundamental research, addressing some of the most up to date questions in modern, accelerator-based particle physics.…
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Neutron Imaging is a radiographic testing method using neutrons. As such it is quite similar to X-ray, which is well known from medical applications. Neutrons are able to transmit material layers of…
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ZEBRA is the single crystal diffractometer for thermal neutrons at the spallation neutron source SINQ at PSI. It is a flexible monochromatic diffraction instrument for applications in magnetism and…
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The small angle neutron scattering facility SANS-I at the spallation neutron source SINQ at PSI is suited for a wide range of scientific applications from the fields of fundamental physics, solid…
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Synchrotron light is a particularly intense form of light, with characteristics that can be precisely adapted to the requirements of an experiment. Scientists use synchrotron light to determine the…
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Synchrotron light is a particularly intense form of light, with characteristics that can be precisely adapted to the requirements of an experiment. Scientists use synchrotron light to determine the…
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An insertion device from PSI is being prepared for its long journey to Australia. The 11.5 tonne device was in use at PSI for more than ten years. Now it is getting a new job at the Australian…
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(DE) Am 5. Dezember 2016 wurde der Schweizer Freie-Elektronen-Röntgenlaser SwissFEL feierlich eingeweiht. Der vier Jahre lange Bau der neuen Grossforschungsanlage des Paul Scherrer Instituts PSI…
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(DE) Kamerafahrt mit dem Velo durch den 740 Meter langen Freie-Elektronen-Röntgenlaser SwissFEL entlang der ATHOS-Strahllinie, November 2021. Die jüngste Grossforschungsanlage des PSI…
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(DE) Kamerafahrt mit dem Velo durch den 740 Meter langen Freie-Elektronen-Röntgenlaser SwissFEL, November 2017, kurz vor dem Start der ersten Experimente. Die neue Grossforschungsanlage des PSI…
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(DE) Kamerafahrt mit dem Velo durch den 740 Meter langen Freie-Elektronen-Röntgenlaser SwissFEL entlang der ARAMIS-Strahllinie, November 2021. Die jüngste Grossforschungsanlage des PSI…
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The latest large research facility at PSI generates very short pulses of X-ray light with laser-like properties. This enables researchers to observe extremely fast processes, such as how new…
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