Electromagnetism and Circular Motion in a Cyclotron
... An Analogy: Before the invention of guns and the like one type of weapon used in hunting or war was the sling. It was a strip of cloth in which a stone or lead weight was placed. The stone was then swung around until going at very high velocity, and finally released to hit a target. This is almost e ...
... An Analogy: Before the invention of guns and the like one type of weapon used in hunting or war was the sling. It was a strip of cloth in which a stone or lead weight was placed. The stone was then swung around until going at very high velocity, and finally released to hit a target. This is almost e ...
081126-IRRAD-WG-hadron-facilities
... near future (next 10 years)? Compromise?: Keep East Hall proton facility operational as long as possible and try with minimum investment to provide test facility for SLHC components testing. Work on question about what can be done to increase beam time/intensity and space? Foresee a very high intens ...
... near future (next 10 years)? Compromise?: Keep East Hall proton facility operational as long as possible and try with minimum investment to provide test facility for SLHC components testing. Work on question about what can be done to increase beam time/intensity and space? Foresee a very high intens ...
Atomic Parity Non-Conservation in Francium: The FrPNC Ex
... Figures 1 (c) and (d), produce NSD parity violation, their contribution is calculated to be more than an order of magnitude smaller than that due to the anapole moment. The anapole-induced PNC effect increases in heavy atoms as Z 8/3 R [5, 8]. The NSD parity violation in francium is expected to be 1 ...
... Figures 1 (c) and (d), produce NSD parity violation, their contribution is calculated to be more than an order of magnitude smaller than that due to the anapole moment. The anapole-induced PNC effect increases in heavy atoms as Z 8/3 R [5, 8]. The NSD parity violation in francium is expected to be 1 ...
High-Intensity Proton Beam Facilities
... High-intensity proton accelerators are vital components of the first two categories of facilities, where high intensities are needed to study processes that have very small production rates. It is important to distinguish two types of radioactive nuclear beam facilities: ♦ In an ISOL (for “Isotope S ...
... High-intensity proton accelerators are vital components of the first two categories of facilities, where high intensities are needed to study processes that have very small production rates. It is important to distinguish two types of radioactive nuclear beam facilities: ♦ In an ISOL (for “Isotope S ...
Commissioning of the Radiofrequency quadrupole cooler
... • “low” EM fields (otherwise ion traps) • Ideal environment for precision experiments ...
... • “low” EM fields (otherwise ion traps) • Ideal environment for precision experiments ...
Abstract
... focus the beam through the fringing field. The device most commonly used is the electrostatic deflector, the main advantage of which being that the septum can be made as thin as possible, thus minimising the fraction of the beam that is inevitably intercepted. This method (unavoidable in many cases) ...
... focus the beam through the fringing field. The device most commonly used is the electrostatic deflector, the main advantage of which being that the septum can be made as thin as possible, thus minimising the fraction of the beam that is inevitably intercepted. This method (unavoidable in many cases) ...
Atomic Parity Non-Conservation in Francium
... magnetic field employing an M1 transition is used to put the atoms in an equal superposition of two upper and lower hyperfine states (see Figure 2(c)). Accurate extraction of the weak-mixing angle from an optical PNC measurement and of isoscalar and isovector weak nucleon-nucleon interaction paramet ...
... magnetic field employing an M1 transition is used to put the atoms in an equal superposition of two upper and lower hyperfine states (see Figure 2(c)). Accurate extraction of the weak-mixing angle from an optical PNC measurement and of isoscalar and isovector weak nucleon-nucleon interaction paramet ...
nufact - CERN Indico
... New EU approach of targetted calls is recommending that DevDet be resubmitted to the EU in their Integrating Activity call of August 2009 (submission date 3 December 2009) – renamed as AIDA I am part of the small group of people putting together the proposal We need to make sure that the neutrino co ...
... New EU approach of targetted calls is recommending that DevDet be resubmitted to the EU in their Integrating Activity call of August 2009 (submission date 3 December 2009) – renamed as AIDA I am part of the small group of people putting together the proposal We need to make sure that the neutrino co ...
ISIS Accelerator and Targets (R. Williamson)
... Introduction to the ISIS Accelerator and Targets ...
... Introduction to the ISIS Accelerator and Targets ...
75 Years of Particle Accelerators
... (MURA), that it was possible to have many configurations of an accelerator, and some of these configurations were advantageous for various purposes. In particular they developed the concept of fixed field (fixed in time) alternating gradient (FFAG) accelerators. Spiral ridge cyclotrons have been ext ...
... (MURA), that it was possible to have many configurations of an accelerator, and some of these configurations were advantageous for various purposes. In particular they developed the concept of fixed field (fixed in time) alternating gradient (FFAG) accelerators. Spiral ridge cyclotrons have been ext ...
accelerate e
... 1928 resonant acceleration -> Ising establish the concept, Wideroe builds the first linac; 1929 cyclotron -> small prototype by Livingstone (PhD thesis), large scale by Lawrence; 1942 magnetic induction -> Kerst build the betatron; 1944 synchrotron -> MacMillan, Oliphant and Veksel invent the RF pha ...
... 1928 resonant acceleration -> Ising establish the concept, Wideroe builds the first linac; 1929 cyclotron -> small prototype by Livingstone (PhD thesis), large scale by Lawrence; 1942 magnetic induction -> Kerst build the betatron; 1944 synchrotron -> MacMillan, Oliphant and Veksel invent the RF pha ...
TRImP Trapped Radioactive Isotopes
... * d-EDM ring experiment (USA, Russia, Italy, Germany …) * 12N, 12B b-decays into 3 a (Scandinavia) * single ion parity experiments (USA) ...
... * d-EDM ring experiment (USA, Russia, Italy, Germany …) * 12N, 12B b-decays into 3 a (Scandinavia) * single ion parity experiments (USA) ...
From the Discovery of Radioactivity to the Production of Radioactive
... H. K. Onnes and interpreted theoretically in 1957 by 1. Bardeen, L.N. Cooper and 1.R. Schrieffer began to be applied to industrial projects in the seventies. In 1976, when it was decided to build GANIL, a choice had to be made between conventional and superconducting cyclotrons. The use of supercond ...
... H. K. Onnes and interpreted theoretically in 1957 by 1. Bardeen, L.N. Cooper and 1.R. Schrieffer began to be applied to industrial projects in the seventies. In 1976, when it was decided to build GANIL, a choice had to be made between conventional and superconducting cyclotrons. The use of supercond ...
RelativityWorkbook-Student
... Visualizing the nuclear force as an “exchange” of a meson between protons and neutrons. A proton could spontaneously turn into a neutron plus a positive meson. According to quantum mechanics, the heavier the meson, the shorter the time period that this is allowed to persist, because this intermediat ...
... Visualizing the nuclear force as an “exchange” of a meson between protons and neutrons. A proton could spontaneously turn into a neutron plus a positive meson. According to quantum mechanics, the heavier the meson, the shorter the time period that this is allowed to persist, because this intermediat ...
Slideshow
... With this device, almost ideal tomography of bunches is possible in linear accelerators, circular accelerators, and storage rings. ...
... With this device, almost ideal tomography of bunches is possible in linear accelerators, circular accelerators, and storage rings. ...
Vorlage für die Scientific Reports
... in the experimental area of the PROSCAN biomedical accelerator – see Fig. 1. The area has been commissioned in August 2008 and first beam have been successfully delivered in September. Experimental setup for PIF irradiations is arranged in a similar manner as in the low energy site in the NEB area. ...
... in the experimental area of the PROSCAN biomedical accelerator – see Fig. 1. The area has been commissioned in August 2008 and first beam have been successfully delivered in September. Experimental setup for PIF irradiations is arranged in a similar manner as in the low energy site in the NEB area. ...
first determination of the proton`s weak charge
... Jefferson Lab’s development of the world’s highest power liquid hydrogen (proton) target, capable of withstanding over 2 kW of beam power at a temperature of 20K with minimal density fluctuations. The laboratory also developed a very high intensity polarized electron beam (up to 180 μA at 89% polari ...
... Jefferson Lab’s development of the world’s highest power liquid hydrogen (proton) target, capable of withstanding over 2 kW of beam power at a temperature of 20K with minimal density fluctuations. The laboratory also developed a very high intensity polarized electron beam (up to 180 μA at 89% polari ...
Beamtime request for ion
... Ion Beam Physics Group, Institute for Particle and Nuclear Physics, Wigner Research Centre for Physics, Hungarian Academy of Sciences ...
... Ion Beam Physics Group, Institute for Particle and Nuclear Physics, Wigner Research Centre for Physics, Hungarian Academy of Sciences ...
Alexei Bylinskii
... Designed, built and tested the radio frequency (RF) drive system for the TITAN Penning ion trap [work published in an internal report]. The system was crucial for precise mass measurements of short-lived nuclei with 10-8 precision. ...
... Designed, built and tested the radio frequency (RF) drive system for the TITAN Penning ion trap [work published in an internal report]. The system was crucial for precise mass measurements of short-lived nuclei with 10-8 precision. ...
Open: Postdoc Position at the Massachusetts Institute of Technology
... a factor of five higher than has been demonstrated in modern cyclotrons. We have approached this goal in two steps. The first innovation was the use of an H2+ beam. This reduces space-charge forces, overcoming the limitations of injecting an intense beam into the central region of a compact cyclotro ...
... a factor of five higher than has been demonstrated in modern cyclotrons. We have approached this goal in two steps. The first innovation was the use of an H2+ beam. This reduces space-charge forces, overcoming the limitations of injecting an intense beam into the central region of a compact cyclotro ...
over one million events
... CERN control centre and the experiments' control rooms this weekend: – long periods of stable beams at 450 GeV, – good beam lifetimes and – beam intensities of up to 7 x 10^10 protons per beam meant that all experiments took a very good set of data. ...
... CERN control centre and the experiments' control rooms this weekend: – long periods of stable beams at 450 GeV, – good beam lifetimes and – beam intensities of up to 7 x 10^10 protons per beam meant that all experiments took a very good set of data. ...
Here - Winter Nuclear and Particle Physics Conference
... A 500 MeV proton beam was impinged on a UCx target, producing a wide range of isotopes. The isotopes were extracted from the UCx target by laser ionization and transported through a mass separater into a Charge State Booster (CSB). This enabled 94 Sr to be extracted and then later reaccelerated usin ...
... A 500 MeV proton beam was impinged on a UCx target, producing a wide range of isotopes. The isotopes were extracted from the UCx target by laser ionization and transported through a mass separater into a Charge State Booster (CSB). This enabled 94 Sr to be extracted and then later reaccelerated usin ...
TRIUMF
TRIUMF is Canada's national laboratory for particle and nuclear physics. TRIUMF is considered Canada's leading nuclear science research institute, and is consistently regarded as one of the leading subatomic physics research centers on the international level. TRIUMF's headquarter is located on the south campus of the University of British Columbia in Vancouver, British Columbia. TRIUMF houses the world's largest cyclotron, a source of 500 MeV protons, which was named an IEEE Milestone in 2010. TRIUMF's activities involve particle physics, nuclear physics, nuclear medicine, and materials science.There are over 450 scientists, engineers, and staff on the TRIUMF site, as well as 150 students and postdoctoral fellows. The lab attracts over 1000 national and international researchers every year and has generated over $1B in economic impact activity over the last decade.TRIUMF scientists and university-based physicists develop and implement Natural Sciences and Engineering Research Council’s (NSERC) long-range plan for subatomic physics. TRIUMF uses these plans to develop its own priorities. TRIUMF supports only those projects that have been independently peer reviewed and endorsed by the international scientific community. TRIUMF has over 50 international agreements for collaborative scientific research.Asteroid 14959 TRIUMF is named in honour of the laboratory.