New Theories of Gravitation and Particle Model Chongxi Yu

... When the Earth rotates from west to east, the lag of electron movement will produce a magnetic field that points south (electric current directs from east to west) according to the right hand rule. This may be the source of the Earth’s magnetic field. Mercury (3.03 m/s ) rotates much slower than th ...

Subthreshold antiproton production in nucleus

... decay of d, 's into pions and the large tran fusion cross section. For the latter case, the time evolution of the particle abundance is shown in Fig. 1(b). The calculated antiproton to negative pion ratio is about a factor of S larger than the case when there are no p and n mesons in the initial fir ...

Proton decay studies in Liquid Argon TPC

The Future of High Energy Nuclear Physics in Europe

... experiment NA60 could only take data in a single ion run with Indium beams, resulting in a spectacular and intriguing signal. Secondly, ‘new physics’ may still be hiding, if indeed the QCD ‘critical endpoint’ where located in the SPS energy range. On this topic, however, the committee felt that furt ...

Peaceful Uses of Fusion - Nuclear Sciences and Applications

Operational Status and Power Upgrade Prospects of the

Charmonia

... In D0 2006 publication on the prompt photons production the deviations from the corresponding pQCD predictions, previously founded in RunI data, are observed in a more wide kinematical region and with higher statistics. This result was confirmed by CDF measurement in 2009 (DIS09, Madrid). D0 (2006) ...

Atmospheric-pressure piezo-driven microplasma source for bio-medical applications

... transformer with a rectangular cross-section. The piezo element is housed in the front end of a metal tube; the power and gas supply enter the tube through its rear end. A quartz tube is coaxially fitted to the metal tube for experimental purpose and to protect the active plasma from perturbation by ...

Theory of Fundamental Interactions

... This is a two-semester course for the fifth-year physics students. The course consists of two parts: the first one (the Standard Model) is studied in the autumn semester; it is an introduction to the modern theory of the unified electromagnetic and weak interaction. The second part (quantum chromody ...

p T - YITP

... --How does the system respond to spatial anisotropy?-No secondary interaction ...

X-Ray Scattering from Warm Dense Matter at Vulcan

... regimes of condensed matter and weakly coupled plasmas. Density ranges from 0.1-10 times solid density and temperatures are from 0.1 to 100eV [1]. WDM is important in astrophysics; it is the most likely state of matter for the cores of Jovian planets (figure 1), brown dwarfs and could also be simila ...

Introduction to Collision Dynamics

Research Article Generalized Buneman Dispersion

... [11]. In the case of anisotropic velocity distribution the socalled Weibel instability develops, which was described in the same time period as the Buneman instability [12]. All these types of instabilities dissipate the particle energy into the plasma waves or other plasma disturbances. In some sen ...

States of Matter PowerPoint

... 801°C and boils at 1413°C, it must be a solid at room temperature and according to the table above will most likely be? Next ...

Modern Physics and Subtle Realms: Not Mutually Exclusive

Plasma Process 7 dif..

L scher.pdf

... results are practically all based on such numerical studies. In the course of these calculations the ﬁelds have to be stored in the memory of the computer, and only lattices of limited size can thus be simulated. The progress in computer technology allows the lattice extents to be doubled in all dir ...

An Introduction to High Energy Physics

... a way that a new particle is produced with almost zero momentum. However, energy must be conserved so that the mass of the new particle is: ...

Diagnostics

...  Except for a few quantities each plasma parameter in general can be measured by more than one technique, often with different spatial and time resolution or with the use of different interpretation models. Compatibility of different measurements:  Different diagnostics may give different values f ...

Observing the proton off the light-cone

Principles of ”Particle in cell” simulations

States of Matter Comparison Chart

... Particles are free to move past other particles; more movement than a solid, not as much as a gas Attractive forces weaker than those of a solid but stronger than those of a liquid ...

Written Transcript of this video lesson

... Welcome again. You must have concluded that if we keep on rising the temperature of gas, it will change into a new state of matter... Yes a new state of matter!!! It is the fourth state of matter which is called “Plasma”. As we know, the gas atoms contain equal number of positive and negative charge ...

All three experiments have identified specific B meson decays and

... Over the past 50 years that I have been working in particle physics, I have witnessed enormous progress in theory and experiments leading to our current understanding of matter's constituents and their interactions at the most fundamental level. But there are still many unanswered questions, from v ...

Matter Matters

... The states of matter • Water, air, rocks are made all by matter! • Matter are made out of tiny little particles called atoms • Matter can be grouped into three • Solids, liquids, and gas • They’re almost the same but not that much here are some pictures of the three the solids are all together and ...

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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