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Articles 1 - 12 of 12
Full-Text Articles in Physics
Waccmxdata, Xuguang Cai
Waccmxdata, Xuguang Cai
Xuguang Cai
Pubspectra To Do Data, George Mcnamara
Pubspectra To Do Data, George Mcnamara
George McNamara
PubSpectra raw data that I had in my "to do" folder to add to the PubSpectra data set but never did.
PubSpectra has over 2000 spectra in it (last updated 2006) in Excel "big file" format - the XLSX file inside the zip file at
http://works.bepress.com/gmcnamara/9/
Anyone is welcome to add and organize new data yourselves. I used Un-Scan-It from Silk Scientific (www.silkscientific.com).
More importantly, I strongly adopting my PubSpectra format of 1 nm wavelength intervals, with the row number corresponding to nm. For example, 400 nm data appears in row 400.
Much of Urse Utzinger's "Spectra Arizona" data,
http://www.spectra.arizona.edu/ …
Syllabus_Lecture_Notes_Collective_Phenomena_In_Laser_Plasmas_Ii_Phy998_Spring_2014, Serge Y. Kalmykov
Syllabus_Lecture_Notes_Collective_Phenomena_In_Laser_Plasmas_Ii_Phy998_Spring_2014, Serge Y. Kalmykov
Serge Youri Kalmykov
High-power laser radiation beams interacting with a rarefied, fully ionized plasmas are essentially unstable. This fact is mainly due to the excitation of various modes of plasma oscillations, most important of which are electron Langmuir waves and ion acoustic waves. The stimulated scattering processes destroy and deplete the pulse in the as it propagates. On the other hand, at the moderate level of instability, spectral properties of the scattered light may serve as optical diagnostics of the pulse propagation dynamics. Knowing the dynamics of the stimulated scattering processes is thus essential for such applications as inertial confinement fusion and laser-plasma …
Syllabus_Lecture_Notes_Collective_Phenomena_In_Laser_Plasmas_Phy998_2_Fall_2013, Serge Y. Kalmykov
Syllabus_Lecture_Notes_Collective_Phenomena_In_Laser_Plasmas_Phy998_2_Fall_2013, Serge Y. Kalmykov
Serge Youri Kalmykov
Interaction of high-power laser radiation with rarefied, fully ionized plasmas is rich in nonlinear collective phenomena. It is essentially three-dimensional and is dominated by the excitation of various modes of plasma oscillations, most important of which are electron Langmuir waves. These waves may trap externally injected electrons or initially quiescent plasma electrons, accelerating them to GeV-scale energies. Laser pulses can also launch collisionless shocks, which may accelerate plasma ions to MeV energies. Furthermore, relativistic mass effect and electron density perturbations by the radiation pressure cause laser pulse self-focusing and filamentation, leading to the radiation pulse self-guiding over many Rayleigh lengths. …
Exact Topological Density In The Lattice Skyrme Model, Alec Schramm, Benjamin Svetitsky
Exact Topological Density In The Lattice Skyrme Model, Alec Schramm, Benjamin Svetitsky
Alec J Schramm
We propose using the Skyrme model on a lattice as an effective field theory of meson–baryon interactions. To this end we construct a local topological density that involves the volumes of tetrahedra in the target space S3 and we make use of Coxeter’s formula for the Schla¨fli function to implement it. We calculate the mean-square radius of a skyrmion in the three-dimensional Skyrme model, and find some surprises.
Topology And Metastability In The Lattice Skyrme Model, Alec Schramm, Benjamin Svetitsky
Topology And Metastability In The Lattice Skyrme Model, Alec Schramm, Benjamin Svetitsky
Alec J Schramm
We offer the Skyrme model on a lattice as an effective field theory—fully quantized—of baryon-meson interactions at temperatures below the chiral phase transition. We define a local topological density that involves the volumes of tetrahedra in the target space S3 and we make use of Coxeter’s formula for the Schläfli function to implement it. This permits us to calculate the mean-square radius of a Skyrmion in the three-dimensional lattice Skyrme model, which may be viewed as a Ginzburg-Landau effective theory for the full quantum theory at finite temperature. We find that, contrary to expectations, the Skyrmion shrinks as quantum and …
Glueball Production In Peripheral Heavy-Ion Collisions, Alec Schramm
Glueball Production In Peripheral Heavy-Ion Collisions, Alec Schramm
Alec J Schramm
The method of equivalent quanta is applied both to photon-photon and, by analogy, to double pomeron exchange in heavy-ion collisions. This Weizsäcker-Williams approach is used to calculate production cross sections for the glueball candidate fJ(1710) meson via photon-photon and pomeron-pomeron fusion in peripheral heavy-ion collisions at both RHIC and LHC energies. The impact parameter dependence for total and elastic cross sections is presented, and compared with results for proton-proton collisions.
Production Of Η Mesons In Double Pomeron Exchange, Alec Schramm, Daniel Reeves
Production Of Η Mesons In Double Pomeron Exchange, Alec Schramm, Daniel Reeves
Alec J Schramm
We estimate the production cross section for ηc and ηb mesons via Pomeron-Pomeron fusion in peripheral heavy-ion collisions. Total and elastic PP cross sections are calculated in an equivalent Pomeron approximation.
Η Production In Peripheral Heavy-Ion Collisions, Alec Schramm, Daniel Reeves
Η Production In Peripheral Heavy-Ion Collisions, Alec Schramm, Daniel Reeves
Alec J Schramm
We estimate the impact parameter dependence of the production cross section for ηc and ηb mesons in peripheral heavy-ion collisions. Total and elastic γγ cross sections are calculated in an equivalent photon approximation.
Pion Fusion In Peripheral Pp Collisions, Alec Schramm, Burndt Muller
Pion Fusion In Peripheral Pp Collisions, Alec Schramm, Burndt Muller
Alec J Schramm
We estimate the cross section for quasielastic double pion exchange in high energy proton-proton collisions. Total and elastic ππ cross sections are calculated in an equivalent pion approximation, with pion-baryon vertices taken from chiral perturbation theory.
Conformal Transformations In Quantum Mechanics, Alec Schramm, Alfons Stahlhofen
Conformal Transformations In Quantum Mechanics, Alec Schramm, Alfons Stahlhofen
Alec J Schramm
We discuss the occurrence of orientation- or area-preserving diffeomorphism groups in quantum mechanics. We show that the generators of these groups are contained in the generators of the symmetry group of a central potential, as is demonstrated by the example of the Coulomb problem. Our approach is based on the recently introduced concept of a factor space of scattering states.
Ab Initio Approach To The Deuteron In The Skyrme-Witten Model, Alec Schramm
Ab Initio Approach To The Deuteron In The Skyrme-Witten Model, Alec Schramm
Alec J Schramm
No abstract provided.