高エネルギー素粒子物理学は、量子場理論が支配するエネルギー領域において、物質の基本構成要素とその相互作用を研究します。実験では、粒子加速器と検出器を用いて、電弱対称性の破れ、クォーク閉じ込め、CP対称性の破れといった現象を検証し、標準模型の予測を検証するとともに、その先にある物理学を探求します。研究分野は、衝突型加速器物理学、ニュートリノの特性、暗黒物質候補、そして新たな粒子や力の探索など多岐にわたります。このページでは、素粒子過程や基本力の理解を深める上で重要な実験技術、理論的枠組み、計測機器の進歩に貢献する、最新の査読済み論文や特許取得済みの技術革新をまとめて紹介しています。
これは、多数の科学オンラインジャーナルの中から、高エネルギー粒子物理学に関する英語の世界中の出版物と特許の最新のセレクションです。粒子加速器、ハドロン衝突型加速器、クォークグルーオンプラズマ、標準モデル、粒子検出器、高エネルギー衝突、超対称性、ヒッグス粒子、レプトン衝突型加速器、パートン分布関数、ジェット物理学、バリオン非対称性、CP違反、ニュートリノ振動、暗黒物質、高エネルギー、粒子物理学、標準モデルを超える、電弱相互作用、量子色力学、重イオン衝突、ミューオンg-2、フレーバー物理学、エキゾチック粒子、粒子崩壊チャネル、ルミノシティ、頂点検出器、ビームダンプ、粒子トラックに分類され、焦点を絞っています。
Oppie box and power distribution
Patent published on the 2026-06-11 in WO under Ref WO2026120579 by GODGES MARK [US] (Makatia Omusilibwa Fidel [us], Muhammad Ahsan [pk])
Abstract: The Oppie Box is a renewable intelligent power manager system which transfers and differentiates renewable and other energy in an intelligent way between the main (usually petroleum or gas grid) to a renewable minigrid and battery system in order to efficiently conserve and store energy in high-energy use customers, particularly in critical infrastructure, while reducing electric grid burdens for communities. The main aim of this device is to enable efficient use of both main grid and renewable [...]
Our summary: The Oppie Box is an intelligent power management system that optimizes energy distribution between traditional and renewable sources. It aims to efficiently conserve and store energy for high-demand users, particularly in critical infrastructure. The device also predicts and mitigates energy shortages while reducing burdens on the electric grid.
Renewable Energy, Power Management, Energy Storage, Intelligent Systems
Patent
Low-dimensional tellurium iodide perovskite structure and an aqueous zinc battery using the same
Patent published on the 2026-06-11 in US under Ref US20260163071 by CITY UNIV OF HONG KONG [HK] (Zhi Chunyi [hk], Wang Shixun [hk])
Abstract: The present invention relates to a low-dimensional tellurium iodide perovskite structure. The low-dimensional structure, specifically an organic-inorganic hybrid benzyltriethylammonium tellurium iodide ((BzTEA)2TeI6), enables a highly efficient eleven-electron transfer process involving redox pairs of Cl0/Cl−, I+/I0/I−, and Te6+/Te4+/Te0/Te2−. This innovative perovskite structure confines both chalcogen and halogen elements, effectively mitigating the shuttle effect and enhancing stability[...]
Our summary: The invention presents a low-dimensional tellurium iodide perovskite structure for efficient electron transfer. The Zn∥(BzTEA)2TeI6 battery demonstrates high capacity and energy density with excellent cycle stability. This work advances the design of high-energy batteries using chalcogen-halide perovskite cathodes.
perovskite, tellurium iodide, zinc battery, energy density
Patent
High aspect ratio beryllium oxide nanorod and method for manufacturing same
Patent published on the 2026-05-28 in US under Ref US20260150578 by INDUSTRY ACADEMIC COOPERATION FOUNDATION YONSEI UNIV [KR] (Oh Jung Woo [kr], Jang Yoon Seo [kr], Kim Ji Won [kr], Park Ji Hyeon [kr])
Abstract: [0000] An embodiment relates to a high aspect ratio beryllium oxide nanorod and a method for manufacturing the same. The method for manufacturing a high aspect ratio beryllium oxide nanorod according to an embodiment of the disclosure utilizes an atomic layer deposition (ALD) process. Furthermore, the high aspect ratio beryllium oxide nanorod manufactured using the method according to the embodiment may induce large deformation with a small force due to its high aspect ratio, and may be used as [...]
Our summary: The content discusses a high aspect ratio beryllium oxide nanorod and its manufacturing method. The method employs atomic layer deposition (ALD) for production. The resulting nanorod exhibits significant deformation under minimal force, making it suitable for high-sensitivity piezoelectric applications.
beryllium oxide, nanorod, atomic layer deposition, piezoelectric
Patent
Method and apparatus for harmonic generation of laser frequencies
Patent published on the 2026-05-27 in GB under Ref GB2702012 by LUXINAR LTD [GB] (Rolf Brendan Birch [gb], Benjamin Stuart Fulford [gb], Jason Robert Lee [gb])
Abstract: Method and apparatus 10a for the harmonic generation of laser frequencies in which an input fundamental laser beam 20 is split into two orthogonal polarisations, each polarisation being directed around an independent optical path by at least one steering element 26b, 30b, 32b, 36b, prior to a series of harmonic crystals 40, 42, to optimise conversion efficiency. Independently controlling both polarisations of the fundamental laser beam provides independent alignment optimisation of phase-matchin[...]
Our summary: The method involves splitting a fundamental laser beam into two orthogonal polarisations for independent optical path control. This allows for optimisation of phase-matching parameters and improved conversion efficiency. The design enables compact arrangements and compensates for spatial and temporal walk-off in harmonic generation processes.
harmonic generation, laser frequencies, optical path, phase-matching
Patent
Scintillation element for detecting thermal neutrons
Patent published on the 2026-05-06 in UA under Ref UA130763 by INST FOR SCINTILLATION MATERIALS OF THE NATIONAL ACADEMY OF SCIENCES OF UKRAINE [UA] (Zhmurin Petro Mykolaiovych [ua], Boiaryntsev Andrii Yuriiovych [ua], Sibilieva Tetiana Hryhorivna [ua], Sibiliev Mykola Lvovych [ua], Aleksieiev Vadym Dmytrovych [ua], Yelisieiev Dmytro Anatoliiovych [ua], Yelisieieva Oksana Volodymyrivna [ua])
Abstract: Invention relates to scintillation technology and can be used in the creation of detectors for detecting thermal neutrons against a gamma-ray background for high-energy physics, nuclear power engineering, environmental monitoring, and other fields of science and technology. Scintillation element for detecting thermal neutrons consists of polymethylmethacrylate layers alternating with layers of scintillation material made of a mixture of silver-activated zinc sulfide powder and a neutron converte[...]
Our summary: The invention describes a scintillation element designed for detecting thermal neutrons. It features alternating layers of polymethylmethacrylate and a scintillation material containing silver-activated zinc sulfide and a neutron converter. This element achieves a neutron detection efficiency of 85%, making it suitable for various scientific and technological applications.
scintillation, thermal neutrons, neutron converter, detection efficiency
Patent
A method and a system for processing waste mineral material
Patent published on the 2026-04-23 in AU under Ref AU2026202241 by TECH RESOURCES PTY LTD (Barrera Ramirez Santiago Alonso)
Abstract: Disclosed is a method of upgrading a feed bauxite waste material. The method includes drying the feed bauxite waste material to form a dried material. Then, the method includes comminuting the dried material to form a ground material. The ground material is then subjected to mechano-chemical activation to form an activated material. The feed bauxite waste material may comprise either or both bauxite residue and bauxite tailings. The method may include subjecting the ground or activated material [...]
Our summary: The method upgrades bauxite waste material through drying, comminuting, and mechano-chemical activation. It may involve magnetic separation to eliminate ferromagnetic materials. The process targets bauxite residue and tailings to enhance material recovery.
waste processing, bauxite upgrading, mechano-chemical activation, magnetic separation
Patent
Superluminal quantum reference frames
Published on 2026-04-09 by Amrapali Sen, Matthias Salzger and ?ukasz Rudnicki @IOP SCIENCE
Abstract: Particles cannot travel faster than the speed of light, nor can information. Nonetheless, this assumption has been frequently questioned over the years. This includes radical proposals like tachyons that can be observed in particle accelerators to more subtle ideas like studying superluminal causation to find classical explanations for quantum correlations. Most recently, it has been argued (Dragan and Ekert 2020 New J. Phys.22 033038) that in a world with superluminal observers local determinis[...]
Our summary: This work extends quantum reference frames to include superluminal Lorentz transformations. It addresses paradoxes related to particles with negative energies and the agreement of observers on particle states. The study also explores Bell experiments under superluminal transformations, maintaining probability conservation.
superluminal, quantum reference frames, Lorentz transformations, determinism
Publication
yet another quantum quantizer design space exploration of quantum gate sets using novelty search
Published on 2026-04-09 by Aritra Sarkar, Akash Kundu, Matthew Steinberg, Sibasish Mishra, Sebastiaan Fauquenot, Tamal Acharya, Jaros?aw A Miszczak and Sebastian Feld @IOP SCIENCE
Abstract: The standard model of quantum computation is based on quantum circuits, where the number and quality of the quantum gates composing the circuit influence the runtime and fidelity of the computation. The fidelity of the decomposition of quantum algorithms, represented as unitary matrices, to bounded depth quantum circuits depends strongly on the set of gates available for the decomposition routine. To investigate this dependence, we explore the design space of discrete quantum gate sets and prese[...]
Our summary: This study explores the design space of quantum gate sets using a software tool called YAQQ. It evaluates gate sets based on circuit depth, process fidelity, and novelty. The findings highlight optimized gate sets for quantum algorithms and practical applications in error correction and instruction set design.
quantum gates, novelty search, circuit decomposition, quantum fidelity
Publication
