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Investigating heavy quark physics with the LHCb experiment

A new review published in
EPJ H by Clara Matteuzzi, Research Director at the National Institute for Nuclear Physics (INFN) and former tenured professor at the University of Milan, and her colleagues, examines almost three decades of the LHCb experiment - from its conception to operation at the Large Hadron Collider (LHC) - documenting its achievements and future potential.
The LCHb experiment was originally conceived to understand the symmetry between matter and antimatter and where this symmetry is broken - known as charge conjugation parity (CP) violation. Whilst this may seem like quite an obscure area of study, it addresses one of the Universe s most fundamental questions: how it came to be dominated by matter when it should have equally favoured antimatter? ....

Clara Matteuzzi , University Of Milan , National Institute For Nuclear Physics , Research Director , National Institute , Nuclear Physics , Large Hadron Collider , Standard Model , Particle Physics , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , Particle Physics , பல்கலைக்கழகம் ஆஃப் மிலன் , தேசிய நிறுவனம் க்கு அணு இயற்பியல் , ஆராய்ச்சி இயக்குனர் , தேசிய நிறுவனம் , அணு இயற்பியல் , பெரியது ஹாட்ரான் மோதல் , தரநிலை மாதிரி , துகள் இயற்பியல் , வேதியியல் இயற்பியல் பொருட்கள் அறிவியல் ,

Why do some alloys become stronger at room temperature?

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An alloy is typically a metal that has a few per cent of at least one other element added. Some aluminium alloys have a seemingly strange property.
We ve known that aluminium alloys can become stronger by being stored at room temperature - that s not new information, says Adrian Lervik, a physicist at the Norwegian University of Science and Technology (NTNU).
The German metallurgist Alfred Wilm discovered this property way back in 1906. But why does it happen? So far the phenomenon has been poorly understood, but now Lervik and his colleagues from NTNU and SINTEF, the largest independent research institute in Scandinavia, have tackled that question. ....

United States , Adrian Lervik , Alfred Wilm , Acta Materialia , Department Of Physics , Norwegian University Of Science , Research Council Of Norway , Norwegian University , Paul Merica , Research Council , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , ஒன்றுபட்டது மாநிலங்களில் , துறை ஆஃப் இயற்பியல் , நோர்வே பல்கலைக்கழகம் ஆஃப் அறிவியல் , ஆராய்ச்சி சபை ஆஃப் நோர்வே , நோர்வே பல்கலைக்கழகம் , ஆராய்ச்சி சபை , வேதியியல் இயற்பியல் பொருட்கள் அறிவியல் ,

UConn researchers find bubbles speed up energy transfer

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Energy flows through a system of atoms or molecules by a series of processes such as transfers, emissions, or decay. You can visualize some of these details like passing a ball (the energy) to someone else (another particle), except the pass happens quicker than the blink of an eye, so fast that the details about the exchange are not well understood. Imagine the same exchange happening in a busy room, with others bumping into you and generally complicating and slowing the pass. Then, imagine how much faster the exchange would be if everyone stepped back and created a safe bubble for the pass to happen unhindered. ....

Nora Berrah , Aaron Laforge , Physics Nora Berrah , Physical Review , Interatomic Coulombic Decay , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , உடல் விமர்சனம் , வேதியியல் இயற்பியல் பொருட்கள் அறிவியல் , அணு மூலக்கூறு துகள் இயற்பியல் ,

Search for sterile neutrinos: It's all about a bend in the curve

KATRIN experiment succeeds in strongly narrowing the search elusive particles. ....

Thierry Lasserre , Susanne Mertens , Karlsruhe Institute For Technology , Max Planck Institute For Physics , Physical Review , Karlsruhe Institute , Max Planck Institute , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , Space Planetary Science , Particle Physics , கார்ல்‌ஸ்ரூ நிறுவனம் க்கு தொழில்நுட்பம் , உடல் விமர்சனம் , கார்ல்‌ஸ்ரூ நிறுவனம் , வேதியியல் இயற்பியல் பொருட்கள் அறிவியல் , அணு மூலக்கூறு துகள் இயற்பியல் , இடம் கிரகங்கள் அறிவியல் , துகள் இயற்பியல் ,

Following atoms in real time could lead to better materials design

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Researchers have used a technique similar to MRI to follow the movement of individual atoms in real time as they cluster together to form two-dimensional materials, which are a single atomic layer thick.
The results, reported in the journal
Physical Review Letters, could be used to design new types of materials and quantum technology devices. The researchers, from the University of Cambridge, captured the movement of the atoms at speeds that are eight orders of magnitude too fast for conventional microscopes.
Two-dimensional materials, such as graphene, have the potential to improve the performance of existing and new devices, due to their unique properties, such as outstanding conductivity and strength. Two-dimensional materials have a wide range of potential applications, from bio-sensing and drug delivery to quantum information and quantum computing. However, in order for two-dimensional materials to reach their full potential, their properties need ....

United Kingdom , Nadav Avidor , University Of Cambridge , Cambridge Cavendish Laboratory , Sciences Research Council , Cambridge Atom Scattering Centre , Physical Review Letters , Cavendish Laboratory , Physical Sciences Research Council , Chemistry Physics Materials Sciences , Atomic Molecular Particle Physics , Atomic Physics , ஒன்றுபட்டது கிஂக்டம் , பல்கலைக்கழகம் ஆஃப் கேம்பிரிட்ஜ் , கேம்பிரிட்ஜ் கேவன்டிஷ் ஆய்வகம் , அறிவியல் ஆராய்ச்சி சபை , உடல் விமர்சனம் எழுத்துக்கள் , கேவன்டிஷ் ஆய்வகம் , உடல் அறிவியல் ஆராய்ச்சி சபை , வேதியியல் இயற்பியல் பொருட்கள் அறிவியல் , அணு மூலக்கூறு துகள் இயற்பியல் , அணு இயற்பியல் ,