diff options
| author | Eugeniy Mikhailov <evgmik@gmail.com> | 2011-08-24 23:05:22 -0400 |
|---|---|---|
| committer | Eugeniy Mikhailov <evgmik@gmail.com> | 2011-08-24 23:05:22 -0400 |
| commit | 4895606ea3c65776e1d89f21cd5fa2ed50d68651 (patch) | |
| tree | 0a2884fb1552cc4e83c5a0cfb5d6271be5484ab2 /xmds2/Genas_system/Genas_system.xmds | |
| parent | 909618d306f4b25acc68447b57a78e2f22a13d85 (diff) | |
| download | Nresonances-4895606ea3c65776e1d89f21cd5fa2ed50d68651.tar.gz Nresonances-4895606ea3c65776e1d89f21cd5fa2ed50d68651.zip | |
Defaults changed
Diffstat (limited to 'xmds2/Genas_system/Genas_system.xmds')
| -rw-r--r-- | xmds2/Genas_system/Genas_system.xmds | 18 |
1 files changed, 9 insertions, 9 deletions
diff --git a/xmds2/Genas_system/Genas_system.xmds b/xmds2/Genas_system/Genas_system.xmds index 36eed41..a3585ae 100644 --- a/xmds2/Genas_system/Genas_system.xmds +++ b/xmds2/Genas_system/Genas_system.xmds @@ -55,8 +55,8 @@ const double pi = M_PI; const double c=3.e8; const double lambda=794.7e-9; //wavelength in m - const double N=1e6*(1e6); //number of particles per cubic m i.e. density - const double Gamma=6*(2*M_PI*1e6); // characteristic decay rate of upper level used for eta calculations expressed in [1/s] + const double N=6e10*(1e6); //number of particles per cubic m i.e. density + const double Gamma=1*(2*M_PI*1e6); // characteristic decay rate of upper level used for eta calculations expressed in [1/s] const double eta = 3*lambda*lambda*N*Gamma/16.0/M_PI; // eta constant in the wave equation for Rabi frequency. Units are [1/(m s)] // repopulation rate (atoms flying in/out the laser beam) in [1/s] @@ -80,21 +80,21 @@ <benchmark /> <arguments> <!-- Real and imaginary parts of complex Rabi frequency in [1/s] --> - <argument name="ExReo" type="real" default_value="(3.+0.001)*(2*M_PI*1.e6)" /> + <argument name="ExReo" type="real" default_value="(9.+0.00000001)*(2*M_PI*1.e4)" /> <argument name="ExImo" type="real" default_value="0." /> <argument name="EyReo" type="real" default_value="0." /> - <argument name="EyImo" type="real" default_value="(3.-0.001)*(2*M_PI*1.e6)" /> - <!--light detuning in [1/s] --> - <argument name="delta" type="real" default_value="3.0*(2*M_PI*1e6)" /> + <argument name="EyImo" type="real" default_value="(9.-0.00000001)*(2*M_PI*1.e4)" /> + <!-- light detuning in [1/s] from unshifted m=0 level--> + <argument name="delta" type="real" default_value="0.0*(2*M_PI*1e6)" /> <!--shift of upper-state M=0 sublevel--> - <argument name="delta0" type="real" default_value="1.*(2*M_PI*1e6)" /> + <argument name="delta0" type="real" default_value="14.*(2*M_PI*1e6)" /> <!--Static B-field Larmor frequency--> - <argument name="OL" type="real" default_value="4.*(2*M_PI*1e6)" /> + <argument name="deltaL" type="real" default_value="15.*(2*M_PI*1e6)" /> <!--normalized rf Rabi frequency: Orf = (Larmor frequency due to peak rf field)/sqrt(2)--> <argument name="Orf" type="real" default_value="0.1*(2*M_PI*1e6)" /> <!--rf frequency--> - <argument name="orf" type="real" default_value="4.*(2*M_PI*1e6)" /> + <argument name="orf" type="real" default_value="1.*(2*M_PI*1e6)" /> </arguments> <bing /> <fftw plan="patient" /> |