Baryon Chemical Potential in AdS/CFT
... Purpose of this talk • I would like to present an overview of AdS/CFT. (Incomplete, but “intuitive” hopefully.) • I will report the present status on construction of finite-density AdS/CFT. (What we know and what we do not know.) ...
... Purpose of this talk • I would like to present an overview of AdS/CFT. (Incomplete, but “intuitive” hopefully.) • I will report the present status on construction of finite-density AdS/CFT. (What we know and what we do not know.) ...
Kang_3
... Zhongbo Kang Los Alamos National Laboratory Spinfest 2016 University of California, Riverside July 25 – 26, 2016 ...
... Zhongbo Kang Los Alamos National Laboratory Spinfest 2016 University of California, Riverside July 25 – 26, 2016 ...
transport theory
... In general, there is no direct relationship between (r, t) and J(r, t) since they are quite different moments of the particle distribution function: (r, t) = v n( r, v, t )d 3v , J(r, t) = v n( r, v, t )d 3v . If we ignore the external force F, we can write the Transport Equation in terms of t ...
... In general, there is no direct relationship between (r, t) and J(r, t) since they are quite different moments of the particle distribution function: (r, t) = v n( r, v, t )d 3v , J(r, t) = v n( r, v, t )d 3v . If we ignore the external force F, we can write the Transport Equation in terms of t ...
Numerical calculation of particle collection efficiency in an
... In an ESP, there are two collecting plates with a high-voltage wire (discharge electrode) placed between them, so that the particle-laden air passes between the plates and across the discharge electrode. The latter ionizes the air stream and transfers electric charge to particles which are then driv ...
... In an ESP, there are two collecting plates with a high-voltage wire (discharge electrode) placed between them, so that the particle-laden air passes between the plates and across the discharge electrode. The latter ionizes the air stream and transfers electric charge to particles which are then driv ...
The effects of the Aharonov-Bohm type as tests of the relativistic
... and show how they are related to the last advances of classical electrodynamics. Another important reason for considering nonlocal quantum effects in Sect. 2 is that the discussion on nonlocality revives the polemic on what are the correct expressions of the em forces on elementary point particles, ...
... and show how they are related to the last advances of classical electrodynamics. Another important reason for considering nonlocal quantum effects in Sect. 2 is that the discussion on nonlocality revives the polemic on what are the correct expressions of the em forces on elementary point particles, ...
Effective gravitational interactions of dark matter axions
... Here we dropped the processes which violate axion number. Because such processes are forbidden due to the conservation of energy and three momenta at the first order in HI as long as axions are non-relativistic. ...
... Here we dropped the processes which violate axion number. Because such processes are forbidden due to the conservation of energy and three momenta at the first order in HI as long as axions are non-relativistic. ...
Introduction
... 1.3 Law of Electrical Charges The Law of Electrical Charges states that “subatomic particles with like charges repel each other and particles with unlike charges attract each other.” Therefore, electrons repel electrons and electrons and protons are attracted to each ...
... 1.3 Law of Electrical Charges The Law of Electrical Charges states that “subatomic particles with like charges repel each other and particles with unlike charges attract each other.” Therefore, electrons repel electrons and electrons and protons are attracted to each ...
Download PDF
... dislodge captured polystyrene beads under a given set of conditions. This flow has been compared to predictions made using models we have developed, and found to be in excellent agreement with experimental measurements with no fitted parameters. In addition, we have shown the utility of these modeli ...
... dislodge captured polystyrene beads under a given set of conditions. This flow has been compared to predictions made using models we have developed, and found to be in excellent agreement with experimental measurements with no fitted parameters. In addition, we have shown the utility of these modeli ...
Document
... Cosmic-ray (anti-)protons apt to arrive in polar regions Decayed protons trapped to form Van-Allen radiation belts (CRAND; cosmic-ray albedo neutron decay) Lower energy protons well trapped due to life time Higher energy Anti-protons may remain in radiation belts Protons and anti-protons are gathere ...
... Cosmic-ray (anti-)protons apt to arrive in polar regions Decayed protons trapped to form Van-Allen radiation belts (CRAND; cosmic-ray albedo neutron decay) Lower energy protons well trapped due to life time Higher energy Anti-protons may remain in radiation belts Protons and anti-protons are gathere ...
19-2 The Magnetic Force on a Charged Object
... The right-hand rule for determining the direction of the magnetic force on a moving charge First, make sure you use your right hand! Also, refer to Figure 19.7. • Point the fingers on your right hand in the direction of the charge’s velocity. • While keeping your fingers aligned with the velocity, r ...
... The right-hand rule for determining the direction of the magnetic force on a moving charge First, make sure you use your right hand! Also, refer to Figure 19.7. • Point the fingers on your right hand in the direction of the charge’s velocity. • While keeping your fingers aligned with the velocity, r ...
PPT - hrsbstaff.ednet.ns.ca
... positron from within the nucleus There are two types of beta decay (β- and β+) Beta particles can penetrate matter to a greater extent than alpha particles; they can penetrate about 0.1mm of lead or 10m of air They are also a form of ionizing radiation but less damaging than alpha particles ...
... positron from within the nucleus There are two types of beta decay (β- and β+) Beta particles can penetrate matter to a greater extent than alpha particles; they can penetrate about 0.1mm of lead or 10m of air They are also a form of ionizing radiation but less damaging than alpha particles ...
Effective Field Theory Lectures
... the ideas of Wilson and others that were developed in the early 1970s and completely turned on its head how we think about UV (high energy) physics and renormalization, and how we ...
... the ideas of Wilson and others that were developed in the early 1970s and completely turned on its head how we think about UV (high energy) physics and renormalization, and how we ...
A DEM-CFD approach to predict the pressure drop through an air
... Contact treatment is a crucial factor when trying to model a packed bed in CFD. Mathematically a contact point has an area of zero. Therefore to represent it mathematically with a mesh would require infinitely fine or highly skew cells. Very fine cells could lead to a large computational cost and ve ...
... Contact treatment is a crucial factor when trying to model a packed bed in CFD. Mathematically a contact point has an area of zero. Therefore to represent it mathematically with a mesh would require infinitely fine or highly skew cells. Very fine cells could lead to a large computational cost and ve ...
The Quantum Theory of General Relativity at Low Energies
... The quantum corrections decrease the strength of gravity at short distance, in agreement with handwaving expectations. (In pure gravity without photons or massless neutrinos, the factor 135 + 2Nν is replaced by 127.) An alternate definition including the diagrams calculated in [6] has a slightly dif ...
... The quantum corrections decrease the strength of gravity at short distance, in agreement with handwaving expectations. (In pure gravity without photons or massless neutrinos, the factor 135 + 2Nν is replaced by 127.) An alternate definition including the diagrams calculated in [6] has a slightly dif ...
UNSTRUNG
... in a world that has three spatial dimensions (along with one time dimension). But for string theory to make mathematical sense the world must have nine spatial dimensions. Why don’t we notice the six extra dimensions? Because, according to string theory, they are curled up into some microgeometry th ...
... in a world that has three spatial dimensions (along with one time dimension). But for string theory to make mathematical sense the world must have nine spatial dimensions. Why don’t we notice the six extra dimensions? Because, according to string theory, they are curled up into some microgeometry th ...
Standard Model
The Standard Model of particle physics is a theory concerning the electromagnetic, weak, and strong nuclear interactions, as well as classifying all the subatomic particles known. It was developed throughout the latter half of the 20th century, as a collaborative effort of scientists around the world. The current formulation was finalized in the mid-1970s upon experimental confirmation of the existence of quarks. Since then, discoveries of the top quark (1995), the tau neutrino (2000), and more recently the Higgs boson (2013), have given further credence to the Standard Model. Because of its success in explaining a wide variety of experimental results, the Standard Model is sometimes regarded as a ""theory of almost everything"".Although the Standard Model is believed to be theoretically self-consistent and has demonstrated huge and continued successes in providing experimental predictions, it does leave some phenomena unexplained and it falls short of being a complete theory of fundamental interactions. It does not incorporate the full theory of gravitation as described by general relativity, or account for the accelerating expansion of the universe (as possibly described by dark energy). The model does not contain any viable dark matter particle that possesses all of the required properties deduced from observational cosmology. It also does not incorporate neutrino oscillations (and their non-zero masses).The development of the Standard Model was driven by theoretical and experimental particle physicists alike. For theorists, the Standard Model is a paradigm of a quantum field theory, which exhibits a wide range of physics including spontaneous symmetry breaking, anomalies, non-perturbative behavior, etc. It is used as a basis for building more exotic models that incorporate hypothetical particles, extra dimensions, and elaborate symmetries (such as supersymmetry) in an attempt to explain experimental results at variance with the Standard Model, such as the existence of dark matter and neutrino oscillations.