Dr. Saskia Mioduszewski Quark-Gluon Plasma
... Integrating these Gaussians showed that the relative yield of electrons increased by about a factor of two when the Preshower is included. ...
... Integrating these Gaussians showed that the relative yield of electrons increased by about a factor of two when the Preshower is included. ...
Subatomic Structure
... The nucleus is the central part of an atom. It is composed of protons and neutrons. Unlike in a living cell, the nucleus of an atom is not a physical thing. It is the name for the area that holds the protons and neutrons. ...
... The nucleus is the central part of an atom. It is composed of protons and neutrons. Unlike in a living cell, the nucleus of an atom is not a physical thing. It is the name for the area that holds the protons and neutrons. ...
cernTalk_nov2013
... Helps us detect B mesons. B mesons have long lifetimes (10-12s!). They travel a few mm before decaying. Can observe a secondary vertex. ...
... Helps us detect B mesons. B mesons have long lifetimes (10-12s!). They travel a few mm before decaying. Can observe a secondary vertex. ...
The Standard Model (SM) describes the fundamental particles of the
... and the ways in which they interact. The SM describes 36 fundamental particles and three types of fundamental interactions. ...
... and the ways in which they interact. The SM describes 36 fundamental particles and three types of fundamental interactions. ...
introduction to the standard model of particle physics
... Even better than office hours: Use the forum for the class on Moodle. I’ll be reading it and answering questions so that everyone can have access to the questions/answers. Assignments: will be given posted on the website every week. Solutions will be posted after 2 weeks. There is no requirement to ...
... Even better than office hours: Use the forum for the class on Moodle. I’ll be reading it and answering questions so that everyone can have access to the questions/answers. Assignments: will be given posted on the website every week. Solutions will be posted after 2 weeks. There is no requirement to ...
Problems for particle physics course:
... b) Find the magnitudes of the outgoing momenta. 2. ParticleA(energy E) hits particle B (at rest), producing particles C1, C2, …, Cn: A+B C1 + C2 + … + Cn. Calculate the threshold (i.e. minimum E) for this reaction, in terms of the various particle masses. 3. In a two-body scattering event,A+ B C ...
... b) Find the magnitudes of the outgoing momenta. 2. ParticleA(energy E) hits particle B (at rest), producing particles C1, C2, …, Cn: A+B C1 + C2 + … + Cn. Calculate the threshold (i.e. minimum E) for this reaction, in terms of the various particle masses. 3. In a two-body scattering event,A+ B C ...
The Constant-Sound-Speed parameterization of the quark matter EoS
... sufficiently heavy neutron stars may really be “hybrid stars” with quark matter cores. Since little is known about the quark matter equation of state, we perform a model-independent study of the form of the mass-radius relation for hybrid stars, making only some generic assumptions about the quark m ...
... sufficiently heavy neutron stars may really be “hybrid stars” with quark matter cores. Since little is known about the quark matter equation of state, we perform a model-independent study of the form of the mass-radius relation for hybrid stars, making only some generic assumptions about the quark m ...
NW3424392440
... mesons can be determined. The obtained results can be compared with the results of other potentials and real results. Keywords: Quark; perturbation; spin; energy. ...
... mesons can be determined. The obtained results can be compared with the results of other potentials and real results. Keywords: Quark; perturbation; spin; energy. ...
subatomic structure
... themselves made of smaller particles! • Subatomic particles composed of fast moving points of energy called quarks Quark Calculations (for protons and neutrons) Each proton is 2 up quarks and 1 down quark ...
... themselves made of smaller particles! • Subatomic particles composed of fast moving points of energy called quarks Quark Calculations (for protons and neutrons) Each proton is 2 up quarks and 1 down quark ...
Classes of Particles - Liberty Union
... during the junior or senior years since many players will not have completed them before encountering the subject matter at tournaments. One high-yield area of physics to study is the nomenclature of various groups of particles. Some conventions: The mass of particles is usually given in mega-electr ...
... during the junior or senior years since many players will not have completed them before encountering the subject matter at tournaments. One high-yield area of physics to study is the nomenclature of various groups of particles. Some conventions: The mass of particles is usually given in mega-electr ...
ParticleZoo
... nucleon of 300 MeV/c, or a relative energy of 1232 MeV penetrates into the medium of a nucleus. Resonance ...
... nucleon of 300 MeV/c, or a relative energy of 1232 MeV penetrates into the medium of a nucleus. Resonance ...
Strangeness production
Strangeness production is a signature and a diagnostic tool of quark–gluon plasma (or QGP) formation and properties. Unlike up and down quarks, from which everyday matter is made, strange quarks are formed in pair-production processes in collisions between constituents of the plasma. The dominant mechanism of production involves gluons only present when matter has become a quark–gluon plasma. When quark–gluon plasma disassembles into hadrons in a breakup process, the high availability of strange antiquarks helps to produce antimatter containing multiple strange quarks, which is otherwise rarely made. Similar considerations are at present made for the heavier charm flavor, which is made at the beginning of the collision process in the first interactions and is only abundant in the high-energy environments of CERN's Large Hadron Collider.