PPT-1 Sources of « high energy » particles obtained with UHI lasers for nuclear physics

Excitations Nucléaires par Laser Group MM Aléonard M Gerbaux F Gobet F Hannachi G Malka C Plaisir JN Scheurer M Tarisien CERN CLIC meeting October 3 rd 2008 In all the . A Glimpse into the Quantum Universe. Ramone. Brown, Solomon Utain. Mentor: Dr. Richard Jones. Nuclear Physics. 1. Outline. Fundamentals. Particles. Forces. Accelerators and Detectors. Higgs Boson. GlueX. Usually . electrical to optical converters. 1.Continuum . sources. a. . Incandescent. . sources. Blackbody. . sources. Tungsten . filament. . sources. b. ASE (. EDFAs. ). c. . LEDs. 2. Sources of line spectra. Spring 2011. (Chapter 1: getting started). . the elementary particles. the forces. the model . how can we understand it?. Elementary particle: . an entity not able to be further decomposed. . with a unique set of properties. Atoms consist of a nucleus surrounded by electrons. Chemistry is produced by interactions involving the electrons around the atom. t. his involves small energy changes (~0.01 eV) and can happen at room temperatures. Introduction- quantum physics. Particles. of light . . PHOTONS. The photoelectric effect. Photocells & intrusion detection devices. The Bohr atom. emission & absorption of radiation. LASERS. for Nuclear Medicine. Slide set prepared in 2015. by J. Schwartz (New York, NY, USA). Slide . set of . 101 slides . based on the chapter authored by. E.B. PODGORSAK. , . A.L. KESNER. , . P.S. SONI. of . RHIC & AGS Annual User Meeting. Brookhaven National Laboratory. June 23, 2011. Timothy J. Hallman. Associate Director for Nuclear Physics. Office of Science, U.S. Department of Energy. 2. To enable U.S. world leadership in discovery science illuminating the properties of nuclear matter in all of its manifestations. CHEP2015. April 13. th. -17. th. , 2015. Okinawa Institute of Science and Technology Graduate University. Onna. , Okinawa, Japan. 21st International Conference on Computing in High Energy and Nuclear Physics, . COMMISSION1Contents Application History of Regulatory AuthoritiesRegulatory StatusNECGASIInternational instrumentsLaw and regulationsSafeguard and securityRAIS2NUCLEAR TECHNOLOGY APPLICATION IN MONGOL PHYSICS - 315 Instructor Dr Igor Ostrovskii SYLLABUS Introduce the physics major students to To teach main ideas and results in Radiation Physics that is an important part of Expand an unders Laura Corner. Cockcroft Institute for Accelerator Science. Liverpool University, UK. CERN Accelerator School. High Gradient Wakefield Accelerators. Sesimbra. , Portugal, March 2019. 2. Outline. What is a laser?. Essential idea: . The idea of discreteness that we met in the atomic world continues to exist in the nuclear world as well.. Nature of science: . (1) Theoretical advances and inspiration: Progress in atomic, nuclear and particle physics often came from theoretical advances and strokes of inspiration. (2) Advances in instrumentation: New ways of detecting subatomic particles due to advances in electronic technology were also crucial. (3) Modern computing power: (4) Finally, the analysis of the data gathered in modern particle detectors in particle accelerator experiments would be impossible without modern computing power.. Norwegian Physics Teachers @ CERN. Slides from . Steinar. . Stapnes. . (CERN/. UiO. ) . + some from Mar . Capeans. (CERN). Presented . by Ole . Røhne. (. UiO. ). Goals and contents. Goals:. Motivation: detectors are . L-35 Nuclear structure. what’s inside the nucleus. what holds it together. isotopes. radioactivity. half-life. L-36 Nuclear energy. nuclear fission. nuclear fusion. nuclear reactors. nuclear weapons.