4,821 research outputs found
Spontaneous Twin Symmetry Breaking
We consider a twin Higgs scenario where the twin symmetry is broken
spontaneously, not explicitly. This scenario provides an interesting
interpretation of the Higgs metastability in the standard model; the
breaking scale is determined by the scale where the Higgs self quartic
coupling flips its sign. However, for the misalignment of nonzero vacuum
expectation values of the twin Higgs fields, parameter tuning of is required like explicit twin symmetry breaking scenarios. For
the minimal model with the exact twin symmetry, is (
GeV), so the model is very unnatural. We point out that the tuning can be
significantly reduced ( TeV) if there are twin vector-like
leptons with large Yukawa coupling to twin Higgs fields.Comment: 8 pages, 6 figures; published versio
Spectral Decomposition of Missing Transverse Energy at Hadron Colliders
We propose a spectral decomposition to systematically extract information of
dark matter at hadron colliders. The differential cross section of events with
missing transverse energy (MET) can be expressed by a linear combination of
basis functions. In the case of -channel mediator models for dark matter
particle production, basis functions are identified with the differential cross
sections of sub-processes of virtual mediator and visible particle production
while the coefficients of basis functions correspond to dark matter invariant
mass distribution in the manner of the K\"all\'en-Lehmann spectral
decomposition. For a given MET data set and mediator model, we show that one
can differentiate a certain dark matter-mediator interaction from another
through spectral decomposition.Comment: 6+4 pages, 6 figures, PRL versio
Adiabatic Electroweak Baryogenesis Driven by an Axion-like Particle
An axion-like particle (ALP) offers a new direction in electroweak
baryogenesis because the periodic nature enables it to trigger a strong
first-order phase transition insensitively to the decay constant . For
much above TeV, the ALP-induced electroweak phase transition is approximately
described by adiabatic processes, distinguishing our scenario for electroweak
baryogenesis from the conventional ones. We show that, coupled to the
electroweak anomaly, the ALP can naturally realize spontaneous electroweak
baryogenesis to solve the matter-antimatter asymmetry problem for in the
range between about GeV and GeV. In such an ALP window, the
violation for baryogenesis is totally free from the experimental constraints,
especially from the recently improved limit on the electron electric dipole
moment. Future searches for ALPs could probe our scenario while revealing the
connection between electroweak symmetry breaking and baryogenesis.Comment: 12 pages, 5 figures, appendices added, published versio
Leptogenesis driven by majoron
We propose a leptogenesis scenario where baryon asymmetry generation is
assisted by the kinetic motion of the majoron, , in the process of
lepton-number violating inverse decays of a right-handed neutrino, . We
investigate two distinct scenarios depending on the sources of majoron kinetic
motion: 1) the misalignment mechanism, and 2) the kinetic misalignment
mechanism. The former case can naturally generate the observed baryon asymmetry
for the majoron mass and the right-handed neutrino's
mass . However, an additional decay channel
of the majoron is required to avoid the overclosure problem of the majoron
oscillation. The later scenario works successfully for , and while can be even far below
the temperature of the electroweak phase transition as long as sufficiently
large kinetic misalignment is provided. We also find that a sub- majoron is a viable candidate for dark matter.Comment: 10 pages, 4 figure
125 GeV Higgs as a pseudo-Goldstone boson in supersymmetry with vector-like matters
We propose a possibility of the 125 GeV Higgs being a pseudo-Goldstone boson
in supersymmetry with extra vector-like fermions. Higgs mass is obtained from
loops of top quark and vector-like fermions from the global symmetry breaking
scale f at around TeV. The mu, Bmu/mu \sim f are generated from the dynamics of
global symmetry breaking and the Higgs quartic coupling vanishes at f as tan
beta \simeq 1. The relation of msoft \sim with f \sim mu \sim m_soft
\sim TeV is obtained and large mu does not cause a fine tuning for the
electroweak symmetry breaking. The Higgs to di-photon rate can be enhanced from
the loop of uncolored vector-like matters. The stability problem of Higgs
potential with vector-like fermions can be nicely cured by the UV completion
with the Goldstone picture.Comment: 28 pages, 8 figure
Kenneth Frampton, Modern Architecture: A Critical History
Since its first publication in 1980, Modern Architecture has been recognized as an essential book on the modern movement in architecture. Kenneth Frampton’s latest fifth edition is a significant improvement from its earlier fourth edition in 2007, employing a much more open and comprehensive approach both geographically and theoretically. The author’s sharp observations on critical works in the modern movement have inspired generations of students for an ethical and intellectual approach to ..
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Organization and Abstraction: The Architecture of Skidmore, Owings & Merrill from 1936 to 1956
This dissertation examines the history of the architecture firm, Skidmore, Owings & Merrill (SOM) between 1936 and 1956. While focusing on the birth and growth of SOM, this study attempts to position the firm in a larger historical development of the United States in the mid-twentieth century. While Louis Skidmore and Nathaniel A. Owings established the firm in 1936, the dissertation begins at the beginning of the Great Depression in 1929. During the 1930s, Skidmore and Owings learned critical lessons from industrial designers about the significance of the public as well as how to attract their attention. The founders discovered the importance of investigating people's reactions to certain forms and spaces, mainly working on small shops and exhibition halls. During WWII, SOM worked on prefabricated houses in the town of Oak Ridge, TN, which was part of the Manhattan Project.
While working confidentially for the military for about three years, SOM mastered diverse kinds of building technology and gained experience with the various programs necessary for a conventional town. In addition, the firm constructed a modern architecture-engineering firm, which could handle complex architectural and engineering projects. As a result of their previous experience, SOM evolved into a leader in designing glass and steel office buildings after WWII, refining the architectural language it had discovered during the war. In the 1950s, the firm continued designing and constructing large town projects for American military and other corporations throughout the world. This dissertation records the shifts in the profession of architecture in each historical context throughout the mid-twentieth century. The first three chapters cover the years from 1929 to 1939, 1939 to 1945, and 1946 to 1956 respectively. The fourth chapter addresses the architecture community's perception of SOM and the firm's organizational characteristics. This dissertation investigates how SOM attempted to modernize architecture as a whole, responding to new materials as well as to the spatial and cultural conditions of the world
Dark matter filtering-out effect during a first-order phase transition
If the mass of dark matter is generated from a cosmological phase transition
involving the nucleation of bubbles, the corresponding bubble walls can filter
out dark matter particles during the phase transition. Only particles with
sufficient momentum to overcome their mass inside the bubbles can pass through
the walls. As a result, the dark matter number density after the phase
transition has a suppression factor , where
is the dark matter mass, and and are the Lorentz
factor and temperature of the incoming fluid in the bubble wall rest frame,
respectively. Under certain assumptions, we show that the filtering-out process
can naturally provide a large suppression consistent with the observed dark
matter density for a wide range of dark matter masses up to the Planck scale.
Since the first-order phase transition is the decisive ingredient in our
mechanism, a new connection is made between heavy dark matter scenarios and
gravitational wave observations.Comment: 6 pages, 2 figures, minor change, presentation improve
Dynamical mean-field theory of Hubbard-Holstein model at half-filling: Zero temperature metal-insulator and insulator-insulator transitions
We study the Hubbard-Holstein model, which includes both the
electron-electron and electron-phonon interactions characterized by and
, respectively, employing the dynamical mean-field theory combined with
Wilson's numerical renormalization group technique. A zero temperature phase
diagram of metal-insulator and insulator-insulator transitions at half-filling
is mapped out which exhibits the interplay between and . As () is
increased, a metal to Mott-Hubbard insulator (bipolaron insulator) transition
occurs, and the two insulating states are distinct and can not be adiabatically
connected. The nature of and transitions between the three states are
discussed.Comment: 5 pages, 4 figures. Submitted to Physical Review Letter
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