Mechanical origin of power law scaling in fault zone rock

... ‘‘constrained comminution’’ model in which the observed dimension D2 = 1.6 is a direct consequence of a particle’s fracture probability being controlled by the relative size of its nearest neighbors. This model differs from those that describe commercial crushing and milling operations in which a pa ...

European Particle Physics Communication network

... The network has strengthened the communication of particle physics in CERN’s Member States, allowing European particle physics to make the most of the unique communication opportunity presented by the start-up of the LHC. Media work Working with EPPCN, CERN organised media briefing days for journali ...

Document

... – Strong & Electroweak Forces unified. – Predicted, but no experimental basis (yet?) ...

Big Bang Nucleosynthesis - Chalmers

MALE AFRICAN ELEPHANT (about 6,000 kilograms) and the

Unit 2: The Fundamental Interactions

**** 1

... plasma boundary is changed by 3D plasma response. 3D MHD equilibrium analysis suggests strongly stochastic regions correlate positions of strong Er shear from negative to positive. • We could not identify the topology of the magnetic field. To identify the topology, we need improvement of Er measure ...

PHYS 1443 * Section 501 Lecture #1

An overview of factors influencing the colloid/particle favoured

... the flow path in the unsaturated or saturated zone. Thus, for practical reasons colloids and suspended particles are often not differentiated. Many different particles can be expected in aqueous environments. The soil itself consists of small particles <20 um. These particles were deposited during s ...

Your Paper`s Title Starts Here:

... Abstract. The paper examines the role and influence of transient phenomenon on the transport efficiency of high current (5-20 kA) low energy (tens of keV) electron beams in a pipe filled with low-pressure plasma in an external magnetic field. The research is based on the self-consistent mathematical ...

200 GeV

CH30 p798

... The magnitude of the charge of the nucleus was found as a result of X-ray scattering experiments done by Henry Moseley, a member of Rutherford’s team. The results showed that the positively charged protons accounted for roughly half the mass of the nucleus. One hypothesis was that the extra mass was ...

Driven reconnection and bursty bulk flows

The Compact Muon Solenoid Experiment at the

... We are proud to say that the LHC tunnel will actually constitute the coldest place in the universe, even colder that intersidereal vacuum. Several weeks are needed in order for the superfluid-Helium-based cryogenics systems, to reach operating temperatures. In order to keep the low temperatures, the ...

6 Big Bang Nucleosynthesis - Course Pages of Physics Department

Who’s Afraid of a Stellar Superflare? Rachel Osten GSFC

Fusion: A true challenge for an enormous reward

... Fusion of heavier nuclei in stars will occur at higher temperatures. From the formula above, it is immediately clear that a contraction of the star under its own gravity will further raise the central temperature. Fusion in heavy stars will continue to keep the star alive as long as the reactions ar ...

Student Seminar Subatomic Physics, blok 1+2 2002/03

... interest. We aim to select a menu that is highly relevant for the various research groups at the KVI and educative also for masters students not (yet) affiliated to the KVI. The literature will consist mostly of actual research overview articles supported by chapters from textbooks. The selection of ...

Linear Collider - University of Victoria

neutrinos: mysterious particles with fascinating features, which led to

... νL (right-handed anti-neutrinos ν̄R ) occur, and they carry a weak hypercharge Y (−Y), which characterizes their coupling to a W or Z gauge boson (like the electric charge of other particles represents the coupling to a photon). Thus also the sign of Y distinguishes ν from ν̄. However, their distinc ...

Departament de Física Grup de Física Teòrica processes beyond the Standard Model

Collider physics and cosmology

Reconstruction of ttZ Events Using Kinematic Likelihood Fits at the

... der investigation and some of its properties have not been measured yet. One of these properties, the top quark’s weak isospin, remains undetermined despite its paramount importance for validating the Standard-Model likeness of the top quark. A precise measurement of the weak isospin will be a key a ...

arXiv:1501.06883v1 [nucl

observable Universe - faculty.ucmerced.edu

... This is because (as we’ll discuss in detail later) the shortest distance between two points on a sphere (the Earth), is a curved path, a section of a great circle. Because the surface over which the line is being drawn is curved, the line itself will be curved. This can lead to some very interesting ...

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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.

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Strangeness production