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There is a good chance that soon a new door will open to physicists, offering them new insights into the mysteries of the universe. The international AWAKE collaboration has made a breakthrough in its efforts to build a new type of particle accelerator. The experiment, in which electrons surf on a plasma wave, accelerates particles with far less effort than is required with the LHC, for example, or with other particle accelerators used to date. Thus, physicists could bring about particle collisions with significantly more energy than has been possible so far. Studying the traces of these collisions may help scientists to gain new insights into the Big Bang and the structure of matter.
ions via metal fleeces, making them particularly efficient and cost-effective Para-particles

The Higgs particle gives mass to matter – and resulted in the Nobel Prize for physicists Peter Higgs and François Englert
Institute of Biochemistry, receives this year’s Heinz Maier-Leibnitz Prize 2025 Para-particles

The Higgs particle gives mass to matter – and resulted in the Nobel Prize for physicists Peter Higgs and François Englert
Institute of Biochemistry, receives this year’s Heinz Maier-Leibnitz Prize 2025 Para-particles

The Higgs particle gives mass to matter – and resulted in the Nobel Prize for physicists Peter Higgs and François Englert
Institute of Biochemistry, receives this year’s Heinz Maier-Leibnitz Prize 2025 Para-particles

There is a good chance that soon a new door will open to physicists, offering them new insights into the mysteries of the universe. The international AWAKE collaboration has made a breakthrough in its efforts to build a new type of particle accelerator. The experiment, in which electrons surf on a plasma wave, accelerates particles with far less effort than is required with the LHC, for example, or with other particle accelerators used to date. Thus, physicists could bring about particle collisions with significantly more energy than has been possible so far. Studying the traces of these collisions may help scientists to gain new insights into the Big Bang and the structure of matter.
ions via metal fleeces, making them particularly efficient and cost-effective Para-particles

Processes taking place inside tiny electronic components or in molecules can now be filmed at a resolution of a few hundred attoseconds and down to the individual atom.
, the particles exhibit their quantum nature more Other Interesting Articles Para-particles

Until now, these magnetic properties could only be measured very well for free electrons. Here, measurement results and theory agree to within ten decimal places. A research team at the Max Planck Institute for Nuclear Physics in Heidelberg has now confirmed with precision measurements from the Alphatrap experiment that these predictions of quantum electrodynamics also apply where electrons are exposed to strong electric fields, namely inside heavy atoms, in the immediate vicinity of the atomic nucleus.
Quantum Dynamics and High-Precision Theory‘ at MPIK Other Interesting Articles Para-particles

German Federal Minister for Education and Research Karliczek visits the Max Planck-UBC-U Tokyo Center for Quantum Materials in Vancouver
astronomical observatories threatened by a planned industrial plant on the Chilean coast Para-particles

Today’s quantum computers contain up to several dozen memory and processing units, the so-called qubits. Severin Daiss, Stefan Langenfeld, and colleagues from the Max Planck Institute of Quantum Optics in Garching have successfully interconnected two such qubits located in different labs to a distributed quantum computer by linking the qubits with a 60-meter-long optical fiber. Over such a distance they realized a quantum-logic gate – the basic building block of a quantum computer. It makes the system the worldwide first prototype of a distributed quantum computer.
05 Feb 2021: Vol. 371, Issue 6529, pp. 614-617 DOI Other Interesting Articles Para-particles

Until now, these magnetic properties could only be measured very well for free electrons. Here, measurement results and theory agree to within ten decimal places. A research team at the Max Planck Institute for Nuclear Physics in Heidelberg has now confirmed with precision measurements from the Alphatrap experiment that these predictions of quantum electrodynamics also apply where electrons are exposed to strong electric fields, namely inside heavy atoms, in the immediate vicinity of the atomic nucleus.
Quantum Dynamics and High-Precision Theory‘ at MPIK Other Interesting Articles Para-particles