3,247 research outputs found
Studying potential new physics with production pair of Higgs boson
Over the course of this semester, I have dedicated time to this wonderful opportunity provided by my mentor along with the Student Engagement Fund to gain more experience with computers, the culture, and learn more about how we study physics. My experience consisted of getting the chance to take a small peak into the world of proton-proton collision study, which is much more involved than I originally expected it to be. It is fascinating how all of the scientists involved in this particular project work together and gather information necessary to explain different phenomena.B.S. (Bachelor of Science
Study of the microstructure resulting from brazed aluminium materials used in heat exchangers
Re-solidification of AA4343 cladding after brazing as well as the related precipitation in the modified AA3003 core material have been investigated. Analysis of the re-solidified material showed that partial dissolution of the core alloy occurs in both the brazing joints and away of them. Far from the brazing joints, the dissolution is, however, limited and diffusion of silicon from the liquid into the core material leads to solid-state precipitation in the so-called “band of dense precipitates” (BDP). On the contrary, the dissolution is enhanced in the brazing joint to such an extent that no BDP could be observed. The intermetallic phases present in the resolidified areas as well as in the core material have been analyzed and found to be mainly cubic alpha-Al(Mn,Fe)Si. These results were then compared to predictions made with available phase diagram information
Exoplanet recycling in massive white-dwarf debris discs
Several tens of white dwarfs are known to host circumstellar discs of dusty debris, thought to arise from the tidal disruption of rocky bodies originating in the star’s remnant planetary system. This paper investigates the evolution of such discs if they are very massive, as may be the case if their progenitor was a terrestrial planet, moon, or dwarf planet. Assuming the discs are physically thin and flat, like Saturn’s rings, their evolution is governed by Poynting–Robertson drag or viscous spreading, where the disc’s effective viscosity is due to self-gravity wakes. For discs with masses ≳ 1026 g, located in the outer parts of the tidal disruption zone, viscous spreading dominates the evolution, and mass is transported both in- and outwards. When outwards-spreading material flows beyond the Roche limit, it coagulates into new (minor) planets in a process analogous to the ongoing formation of moonlets at the outer edge of Saturn’s rings. The newly formed bodies migrate outwards by exchanging angular momentum with the disc and coalesce into larger objects through mutual collisions. Eventually, the disc’s Roche-limit overflow recycles tens of percent of the original disc mass; most ends up in a single large body near 2:1 mean-motion resonance with the disc’s outer edge. Hence, the recycling of a tidally disrupted super-Earth, for example, could yield an Earth-mass planet on a ∼10-h orbit, located in the habitable zone for 2-to-10-Gyr-old white dwarfs. The recycling process also creates a population of smaller bodies just outside the Roche limit, which may explain the minor planets recently postulated to orbit WD 1145+017.RvL, QK, MCW, and AS acknowledge support from the European Union through ERC grant number 279973. RvL is also supported by the DISCSIM project, grant agreement 341137 funded by the European Research Council under ERC-2013-ADG. QK acknowledges funding from STFC via the Institute of Astronomy, Cambridge Consolidated Grant. AS is partially supported by funding from the Center for Exoplanets and Habitable Worlds. The Center for Exoplanets and Habitable Worlds is supported by the Pennsylvania State University, the Eberly College of Science, and the Pennsylvania Space Grant Consortium
Secondary gas in debris discs released following the decay of long-lived radioactive nuclides, catastrophic or resurfacing collisions
Kuiper-like belts of planetesimals orbiting stars other than the Sun are most
commonly detected from the thermal emission of small dust produced in
collisions. Emission from gas, most notably CO, highlights the cometary nature
of these planetesimals. Here we present models for the release of gas from
comet-like bodies in these belts, both due to their thermophysical evolution,
most notably the decay of long-lived radioactive nuclides and collisional
evolution, including catastrophic and gentler resurfacing collisions. We show
that the rate of gas release is not proportional to the rate of dust release,
if non-catastrophic collisions or thermal evolution dominate the release of CO
gas. In this case, care must be taken when inferring the composition of comets.
Non-catastrophic collisions dominate the gas production at earlier times than
catastrophic collisions, depending on the properties of the planetesimal belt.
We highlight the importance of the thermal evolution of comets, including
crucially the decay of long-lived radioactive nuclides, as a source of CO gas
around young (<50Myr) planetary systems, if large (10-100s kms) planetesimals
are present.Comment: Submitted to MNRAS, 16 page
Optical Holonomic Quantum Computer
In this paper the idea of holonomic quantum computation is realized within
quantum optics. In a non-linear Kerr medium the degenerate states of laser
beams are interpreted as qubits. Displacing devices, squeezing devices and
interferometers provide the classical control parameter space where the
adiabatic loops are performed. This results into logical gates acting on the
states of the combined degenerate subspaces of the lasers, producing any one
qubit rotations and interactions between any two qubits. Issues such as
universality, complexity and scalability are addressed and several steps are
taken towards the physical implementation of this model.Comment: 16 pages, 3 figures, REVTE
Operationalisation of Mild Cognitive Impairment: A Graphical Approach
A new online tool allows mapping of the different classifications of mild cognitive impairment
Analytic representations based on SU(1,1) coherent states and their applications
We consider two analytic representations of the SU(1,1) Lie group: the
representation in the unit disk based on the SU(1,1) Perelomov coherent states
and the Barut-Girardello representation based on the eigenstates of the SU(1,1)
lowering generator. We show that these representations are related through a
Laplace transform. A ``weak'' resolution of the identity in terms of the
Perelomov SU(1,1) coherent states is presented which is valid even when the
Bargmann index is smaller than one half. Various applications of these
results in the context of the two-photon realization of SU(1,1) in quantum
optics are also discussed.Comment: LaTeX, 15 pages, no figures, to appear in J. Phys. A. More
information on http://www.technion.ac.il/~brif/science.htm
Dynamics of cold circumstellar gas in debris discs
This is the final version. Available on open access from Oxford University Press via the DOI in this recordData availability: The data underlying this article will be shared on reasonable request to the corresponding author.Mounting observational evidence indicates that cold circumstellar gas is present in debris disc systems. This work focuses on various dynamical processes that debris disc gas may undergo. We review five mechanisms that can transport angular momentum and their applications to debris discs. These include molecular viscosity, hydrodynamic turbulence, magnetohydrodynamic (MHD) turbulence, magnetized disc winds, and laminar magnetic stress. We find that molecular viscosity can result in α as high as ≲0.1 for sufficiently low densities, while the Rossby wave instability is a possible source of hydrodynamic turbulence and structure formation. We argue that the vertical shear instability is unlikely due to the long cooling times. The onset of the magnetorotational instability (MRI) is dichotomous: for low-density discs the MRI can be excited at the mid-plane, while for high-mass discs it may only be operating at z > 2 − 3H, if at all. The MHD wind and laminar magnetic stress mechanisms rely on the configuration and strength of any background large-scale magnetic field, the existence of which is uncertain and possibly unlikely. We conclude that the dominant mechanism and its efficiency in transporting angular momentum vary from one system to the other, depending especially closely on the gas density. More detailed analyses shall be performed in the future focusing on representative, nearby debris discs.Science and Technology Facilities Council (STFC)Royal Societ
- …