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CP violation in B_s mixing from heavy Higgs exchange
The anomalous dimuon charge asymmetry reported by the D0 Collaboration may be
due to the tree-level exchange of some spin-0 particles that mediate CP
violation in B_s-\bar{B}_s meson mixing. We show that for a range of couplings
and masses, the heavy neutral states in a two Higgs doublet model can generate
a large charge asymmetry. This range is natural in "uplifted supersymmetry",
and may enhance the B^- -> tau nu and B_s -> mu^+ mu^- decay rates. However, we
point out that on general grounds the reported central value of the charge
asymmetry requires new physics not only in B_s-\bar{B}_s mixing but also in
\Delta B = 1 transitions or in B_d-\bar{B}_d mixing.Comment: 5 pages, 1 figure. v2: Equations (17)-(19) included to clarify the
flavor structure of uplifted supersymmetr
Signatures of sub-GeV dark matter beams at neutrino experiments
We study the high-luminosity fixed-target neutrino experiments at MiniBooNE,
MINOS and T2K and analyze their sensitivity to light stable states, focusing on
MeV--GeV scale dark matter. Thermal relic dark matter scenarios in the sub-GeV
mass range require the presence of light mediators, whose coupling to the
Standard Model facilitates annihilation in the early universe and allows for
the correct thermal relic abundance. The mediators in turn provide a production
channel for dark matter at colliders or fixed targets, and as a consequence the
neutrino beams generated at fixed targets may contain an additional beam of
light dark matter. The signatures of this beam include elastic scattering off
electrons or nucleons in the (near-)detector, which closely mimics the neutral
current scattering of neutrinos. We determine the event rate at modern fixed
target facilities and the ensuing sensitivity to sub-GeV dark matter.Comment: 18 pages, 13 figures, revtex4-
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Smart labs and social practice: social tools for pervasive laboratory workspaces: a position paper
The emergence of pervasive and ubiquitous computing stimulates a view of future work environments where sharing of information, data and knowledge is easy and commonplace, particularly in highly interactive settings. Much of the work in this area focuses on tool development to support activities such as data collection, data recording and sharing, and so on. We are interested in this kind of technical development, which is both challenging and essential for science communities. But we are also interested in a broader interpretation of knowledge sharing and the human/social side of tools we develop to support this. We are keen to know more about how groups of different kinds of scientists can make their work understandable and shareable with each other in a multidisciplinary setting. This is a complex task because boundaries and barriers can emerge between disciplines engendered by differences in discourses and practices, which may not easily translate into other discipline areas. In the worst case, there may be some hostility between disciplines, or at least doubt and scepticism. Nevertheless, sharing approaches to research, research expertise, data and methods across disciplines can be a very fruitful exercise, and encouragement to engage in this activity is particularly pertinent in the digital era. Issues of privacy and security are also key aspects – knowing when and how to release data or information to other groups is crucial to providing a safe environment for people to work, and there are several sensitivities to be explored here.
In this paper we describe an evolving situation that captures many of these issues, which we aim to track longitudinally
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