Calculates complete tree-level
matrix elements for all
subprocesses.
Includes all coannihilation channels,
in particular channels
with neutralinos, charginos,
sleptons, squarks and gluinos.
Calculates the relic density for
any LSP.
Deals with two sets of input
parameters: parameters of the
MSSM understood to be specified at the EWSB scale or parameters of the
SUGRA model specified at the GUT scale.
Both mSUGRA or non-universal SUGRA models are included.
Provides an interface with the
main codes to calculate the
supersymmetric spectrum:
SuSpect,
Softsusy,
Spheno
and Isajet .
Includes an interface with
the SUSY
Les Houches Accord
for supersymmetric
model specifications and input parameters.
This gives a lot of flexibility as any model for which the MSSM
spectrum is calculated by an external code can be incorporated easily.
Includes loop corrected
sparticle masses and mixing
matrices.
Includes loop-corrected Higgs masses
and widths. QCD
corrections
to the Higgs couplings to fermion pairs are included as well
as, via an effective Lagrangian, the (DeltaMb) correction relevant at
large tanBeta.
Provides
exact numerical solution of the Boltzmann equation
by Runge-Kutta.
Outputs the relative contribution of
each channel to 1/\Omega.
Computes
cross-sections for any 2->2 process
at the parton level.
Calculates decay widths for all
particles at tree-level
including all 1->2 decay modes.
Calculates
NLO
corrections to b->sgamma.
Calculates
constraints on MSSM: g-2(muon_, DeltaRho, Bs_mu.
Supports
both C and Fortran.
Performs
rapidly the relic density calculation, the limiting
factor in the execution time of the program is the computation of the
supersymmetric spectrum.