Ara
Toplam kayıt 14, listelenen: 1-10
Single production of excited neutrinos at future e + e − , e p and p p colliders
(2004)
We study the potential of the linear collider (LC) with
√
s
=
0.5
T
e
V
, linac-ring type
e
p
collider (
L
C
⊗
L
H
C
) with
√
s
=
3.74
T
e
V
, and the large hadron collider (LHC) ...
Scalar leptoquark production at TESLA and CLIC based eγ colliders
(2003)
We study scalar leptoquark production at TESLA and CLIC based eγ colliders. Both direct and
resolved contributions to the cross section are examined. We find that the masses of scalar leptoquarks
can be probed up to about ...
Unparticle effects on top quark rare decays
(2009)
In this work we study the flavor changing neutral current (FCNC) decays of the top quark, t → c γ and t → c g, in the framework of the unparticle physics. The Standard Model predictions for the branching ratios of these ...
Production and decay of excited electrons at the LHC
(2004)
We study single production of excited electrons at the CERN LHC through contact interactions of fermions. Subsequent decays of excited electrons to ordinary electrons and light fermions via gauge and contact interactions ...
Single production of excited electrons at future e e, ep and pp colliders
(2004)
We analyzed the potential of the LC with
√
s
=
0.5
T
e
V
,
L
C
⊗
L
H
C
based
e
p
collider with
√
s
=
3.74
T
e
V
and the LHC with
√
s
=
14
T
e
V
to search for ...
Single production of fourth-family quarks at the LHC
(2008)
We study the single production of fourth-family quarks through the process pp→Q′jX at the Large Hadron Collider (LHC). We have calculated the decay widths and branching ratios of the fourth-family quarks (b′ and t′) in the ...
Unparticle searches through gamma-gamma scattering
(2008)
We investigate the effects of unparticles on γγ →γγ scattering for the photon collider mode of the future multi-TeV e+e- linear collider. We show the effects of unparticles on the differential, and total scattering cross ...
A search for vector diquarks at the CERN LHC
(2002)
Resonant production of the first generation vector diquarks at the CERN Large Hadron Collider (LHC) is investigated. It is shown that the LHC will be able to discover vector diquarks with masses up to 9TeV for quark-diquark-quark ...