14 research outputs found
Analysis of the riser suspension performance
This article will consider the design of the riser suspension with mounting on the platform body (unlike the previous one, which was suspended from the ceiling in the hold). The purpose of this study is to assess the performance of the riser suspension, and in particular rubber-metal pillows. The assessment will be carried out without taking into account the first group of factors (without taking into account the deviation of the riser from the vertical axis), taking into account the second group of factors – the impact of the weight of the riser and the weight of the drilling fluid
Electric/Hybrid Vehicle- Simulation Analysis
This report analyses computational research results of Electric Hybrid vehicle design
and its main component characteristics. Two different versions are proposed and investigated.
"Maximum allowable speed in each point" of the race track model (Le Mans race track) was
tested. Conclusions on two hybrid car design packages; comparison and further research was
completed
F1 Car - Front Wing CFD Analysis and Optimization
This paper describes results of computational research of F1 car front wing design
influence on drag and lift. Four different designs were proposed and investigated. Drag and lift
coefficients of car, front and rear wings of different models were obtained. Conclusions on
car’s performance and further research were made
Clarifying Some Remaining Questions in the Anomaly Puzzle
We discuss several points that may help to clarify some questions that remain
about the anomaly puzzle in supersymmetric theories. In particular, we consider
a general N=1 supersymmetric Yang-Mills theory. The anomaly puzzle concerns the
question of whether there is a consistent way to put the R-current and the
stress tensor in a single supercurrent, even though in the classical theory
they are in the same supermultiplet. As is well known, the classically
conserved supercurrent bifurcates into two supercurrents having different
anomalies in the quantum regime. The most interesting result we obtain is an
explicit expression for the lowest component of one of the two supercurrents in
4-dimensional spacetime, namely the supercurrent that has the energy-momentum
tensor as one of its components. This expression for the lowest component is an
energy-dependent linear combination of two chiral currents, which itself does
not correspond to a classically conserved chiral current. The lowest component
of the other supercurrent, namely, the R-current, satisfies the Adler-Bardeen
theorem. The lowest component of the first supercurrent has an anomaly that we
show is consistent with the anomaly of the trace of the energy-momentum tensor.
Therefore, we conclude that there is no consistent way to put the R-current and
the stress tensor in a single supercurrent in the quantized theory. We also
discuss and try to clarify some technical points in the derivations of the
two-supercurrents in the literature. These latter points concern the
significance of infrared contributions to the NSVZ beta-function and the role
of the equations of motion in deriving the two supercurrents.Comment: 22 pages, no figure. v2: minor changes. v3: sections re-organized.
new subsections (IVA, IVB) added. references adde
The Weak Charge of the Proton and New Physics
We address the physics implications of a precision determination of the weak
charge of the proton, QWP, from a parity violating elastic electron proton
scattering experiment to be performed at the Jefferson Laboratory. We present
the Standard Model (SM) expression for QWP including one-loop radiative
corrections, and discuss in detail the theoretical uncertainties and missing
higher order QCD corrections. Owing to a fortuitous cancellation, the value of
QWP is suppressed in the SM, making it a unique place to look for physics
beyond the SM. Examples include extra neutral gauge bosons, supersymmetry, and
leptoquarks. We argue that a QWP measurement will provide an important
complement to both high energy collider experiments and other low energy
electroweak measurements. The anticipated experimental precision requires the
knowledge of the order alpha_s corrections to the pure electroweak box
contributions. We compute these contributions for QWP, as well as for the weak
charges of heavy elements as determined from atomic parity violation.Comment: 22 pages of LaTeX, 5 figure