1,329 research outputs found
Phenomenological guide to physics beyond the Standard Model
Various aspects of physics beyond the Standard Model are discussed from the
perspective of the fantastic phenomenological success of the Standard Model,
its simplicity and predictive powerComment: Lectures given at the Cargese School on String Theory, Cargese, 4-16
June 2004, 35
An Attempt to Update Edward Dembowski’s Philosophy of Creation
The article mainly discusses Edward Dembowski's philosophy of creation in connection with his Hegelian influences, leftist associations and the ongoing discussion in nineteenth century romantic polish philosophy. The nineteenth century, with its German Idealism and French tendency to act in the name of social rights, had introduced new ideas to work with during harsh historical times. Dembowski, amongst other Poles, was the closest to constructing a coherent metaphysical system for the philosophy of creation (filozofia twórczości). In the paper, I try to show a part of his intellectual evolution, stretching from defining philosophy as knowledge itself in the form of a Hegelian system, through his critique of Hegel's and Cieszkowski's systems, up to his own established system – the philosophy of creation and its social connections. I also speculate about which of his philosophical ideas can remain relevant today
New Regions in the NMSSM with a 125 GeV Higgs
It is pointed out that mixing effects in the CP-even scalar sector of the
NMSSM can give 6-8 GeV correction to the SM-like Higgs mass in moderate or
large regions with a small value of the singlet-higgs-higgs
superfields coupling . This effect comes mainly
from the mixing of the SM-like Higgs with lighter singlet. In the same
parameter range, the mixing of the heavy doublet Higgs with the singlet may
strongly modify the couplings of the singlet-like and the 125 GeV scalars.
Firstly, the LEP bounds on a light singlet can be evaded for a large range of
its masses. Secondly, the decay rates of both scalars can show a variety of
interesting patterns, depending on the lightest scalar mass. In particular, a
striking signature of this mechanism can be a light scalar with strongly
suppressed (enhanced) branching ratios to (, ,
) as compared to the SM Higgs with the same mass. The
decay channel is particularly promising for the search of such a
scalar at the LHC. The 125 GeV scalar can, thus, be accommodated with
substantially smaller than in the MSSM radiative corrections from the stop
loops (and consequently, with lighter stops) also for moderate or large
, with the mixing effects replacing the standard NMSSM mechanism of
increasing the tree level Higgs mass in the low and large
regime, and with clear experimental signatures of such a mechanism.Comment: 19 pages, 5 figures, references added, version to be publishe
Light staus and enhanced Higgs diphoton rate with non-universal gaugino masses and SO(10) Yukawa unification
It is shown that substantially enhanced Higgs to diphoton rate induced by
light staus with large left-right mixing in MSSM requires at the GUT scale
non-universal gaugino masses with bino and/or wino lighter than gluino. The
possibility of such enhancement is investigated in MSSM models with arbitrary
gaugino masses at the GUT scale with additional restriction of top-bottom-tau
Yukawa unification, as predicted by minimal SO(10) GUTs. Many patterns of
gaugino masses leading to enhanced Higgs to diphoton rate and the Yukawa
unification are identified. Some of these patterns can be accommodated in a
well-motivated scenarios such as mirage mediation or SUSY breaking F-terms
being a non-singlet of SO(10). Phenomenological implications of a scenario with
non-universal gaugino masses generated by a mixture of the singlet F-term and
the F-term in a 24-dimensional representation of SU(5) SO(10) are
studied in detail. Possible non-universalities of other soft terms generated by
such F-terms are discussed. The enhancement of Higgs to diphoton rate up to 30%
can be obtained in agreement with all phenomenological constraints, including
vacuum metastability bounds. The lightest sbottom and pseudoscalar Higgs are
within easy reach of the 14 TeV LHC. The LSP can be either bino-like or
wino-like. The thermal relic abundance in the former case may be in agreement
with the cosmological data thanks to efficient stau coannihilation.Comment: 28 pages, 8 figures, comments and references added, matches published
versio
Beyond the Standard Embedding in M-Theory on S^1/Z_2
In this paper we discuss compactifications of M-theory to four dimensions on
X \times S^1/Z_2, in which nonstandard embeddings in the E_8 \times E_8 vacuum
gauge bundle are considered. At the level of the effective field theory
description of Horava and Witten, this provides a natural extension of well
known results at weak coupling, to strongly coupled E_8 \times E_8 heterotic
strings. As an application of our results, we discuss models which exhibit an
anomalous U(1)_A symmetry in four dimensions, and show how this emerges from
the reduction of the d = 11 toplogical term C \wedge G \wedge G, and how it is
consistent with d = 4 anomaly cancellation in M-theory. As a further
application of nonstandard embeddings, we show how it is possible to obtain an
inverse hierarchy of gauge couplings, where the observable sector is more
strongly coupled than the hidden one. The basic construction and
phenomenological viability of these scenarios is demonstrated.Comment: 32 pages, LaTex, no figures, references adde
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