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Solving complex physics problems at lightning speed

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IMAGE: Physicists have developed a new method that enables emulation of complex calculations at lightning speed. This could yield new insights about the quantum properties of strongly interacting matter such as.
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Credit: Illustration: Andreas Ekström and Yen Strandqvist/Chalmers University of Technology
A calculation so complex that it takes twenty years to complete on a powerful desktop computer can now be done in one hour on a regular laptop. Physicist Andreas Ekström at Chalmers University of Technology, together with international research colleagues, has designed a new method to calculate the properties of atomic nuclei incredibly quickly. ....

United States , Achim Schwenk , Kai Hebeler , Gaute Hagen , Andreas Ekstr , Global Sensitivity Analysis Of Bulk Properties , Michigan State University , Oak Ridge National Laboratory , Department Of Physics At Chalmers , Chalmers University Of Technology , European Research Council , Carolina State University , Darmstadt University Of Technology , Chalmers University , Associate Professor , Dean Lee , North Carolina State University , Darmstadt University , Sensitivity Analysis , Bulk Properties , Physical Review Letters , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , Nuclear Physics , Mathematics Statistics , Algorithms Models ,

Limits of atomic nuclei predicted

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Atomic nuclei are held together by the strong interaction between neutrons and protons. About ten percent of all known nuclei are stable. Starting from these stable isotopes, nuclei become increasingly unstable as neutrons are added or removed, until neutrons can no longer bind to the nucleus and drip out. This limit of existence, the so-called neutron dripline , has so far been discovered experimentally only for light elements up to neon. Understanding the neutron dripline and the structure of neutron-rich nuclei also plays a key role in the research program for the future accelerator facility FAIR at the GSI Helmholtz Centre for Heavy Ion Research in Darmstadt. ....

Achim Schwenk , University Of Mainz , Nuclear Physics In Heidelberg , University Of Washington , Collaborative Research Center , Medium Similarity Renormalization Group , Heavy Ion Research , Initio Limits , Physical Review Letters , Editor Suggestion , Professor Achim Schwenk , Max Planck Fellow , Nuclear Physics , In Medium Similarity Renormalization Group , From Fundamental Interactions , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , Atomic Physics , ஆச்சிம் ஸ்ச்சுவேங்க் , அணு இயற்பியல் இல் ஹைடெல்பெர்க் , பல்கலைக்கழகம் ஆஃப் வாஷிங்டன் , கூட்டு ஆராய்ச்சி மையம் , கனமான அயன் ஆராய்ச்சி , இனிட்ிஓ வரம்புகள் , உடல் விமர்சனம் எழுத்துக்கள் , ப்ரொஃபெஸர் ஆச்சிம் ஸ்ச்சுவேங்க் ,