Difference: DiffusionPK (1 vs. 7)

Revision 72011-04-21 - PeterWinter

Line: 1 to 1
 
META TOPICPARENT name="GeneralPK"
Changed:
<
<
-- PeterKammel - 04 Jan 2007

Diffusion Monte Carlo

Goals

  • Study P_out functions more carefully and with md+d scattering
  • Generate time and radius functions with "full kinetics" and understand them
  • Study range of mp diffusion with different scenarios and compare to Adamczak
  • Check effect of high energy pm's generated during cascade

Calculations

study condition Cd (ppm) statistics output analyzed with
mudh2n mud in H2 0. 1e9 run/test/h2n.root make_h2.C->h2n.root, c_pout.C, plot_t("h2n.root", pout.C++
mudHD mud in H2+D 122. 1e8 run/test/mudHD.root make_h2.C->mudHD.root, c_pout.C, plot_t("mudHD.root", pout.C++
mupHD mup in H2+D 1.5. 1e8 run/test/mupHD mupHD.C, time, radius
mupHDC mud in H2+D 122. 1e8 run/test/mupHDC mudHD.C, time, radius

P_out function and decay rates

Extracted from mudh2n and mudHD simulation and already included in latest time analysis note.

Full kinetics range and time

mp+p hfs scattering
md+d hfs scattering
md+p scattering
mp->md transfer
ppm formation is not included, but could be.

Summary: Results follow expectations and document main features of diffusion processes. In principle, these results could be used for moment method or 3 par fit. But I leave that to Brendan, because his simulation better accounts for impact parameter and detector resolution.

Production condition: mupHD

mupHD.radius.gif

mupHD.time.gif

Calibration condition: mupHDC

mupHDC.radius.gif

mupHDC.time.gif

Special pm+p diffusion studies

Some model distributions for testing Steve's reconstruction algorithm

For both topics see elog. Some thoughts on the efficiency differences and properties in Steve's formalism are collected here.

Technical notes

Simulation directory is /home/npl/kammel/mucap/Mucat/run/test Run Mucat on windows machine with MCK_2.bat mupHD

This creates output in directory mupHD. Analyze on the local directory. Copy make_h2 root files to test directory and continue with c_out.C etc. Completed studies saved as mupHD.tar.gz, for example.

>
>
Please go to https://muon.npl.washington.edu/twiki/bin/view/Main/DiffusionPK
 
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167966640" name="mupHDC.time.gif" path="mupHDC.time.gif" size="15116" user="Main.PeterKammel" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167964743" name="mupHD.radius.pdf" path="mupHD.radius.pdf" size="24477" user="Main.PeterKammel" version="1"

Revision 62007-11-13 - PeterWinter

Line: 1 to 1
 
META TOPICPARENT name="GeneralPK"
-- PeterKammel - 04 Jan 2007
Line: 19 to 19
 
mupHDC mud in H2+D 122. 1e8 run/test/mupHDC mudHD.C, time, radius

P_out function and decay rates

Changed:
<
<
Extracted from mudh2n and mudHD simulation and already included in latest time analysis note.
>
>
Extracted from mudh2n and mudHD simulation and already included in latest time analysis note.
 

Full kinetics range and time

Line: 37 to 37
 mupHDC.time.gif

Special pm+p diffusion studies

Some model distributions for testing Steve's reconstruction algorithm

Changed:
<
<
For both topics see elog.
>
>
For both topics see elog.
 Some thoughts on the efficiency differences and properties in Steve's formalism are collected here.

Technical notes

Revision 52007-03-15 - PeterKammel

Line: 1 to 1
 
META TOPICPARENT name="GeneralPK"
-- PeterKammel - 04 Jan 2007
Line: 38 to 38
 

Special pm+p diffusion studies

Some model distributions for testing Steve's reconstruction algorithm

For both topics see elog.
Added:
>
>
Some thoughts on the efficiency differences and properties in Steve's formalism are collected here.
 

Technical notes

Revision 42007-01-10 - PeterKammel

Line: 1 to 1
 
META TOPICPARENT name="GeneralPK"
-- PeterKammel - 04 Jan 2007
Line: 37 to 37
 mupHDC.time.gif

Special pm+p diffusion studies

Some model distributions for testing Steve's reconstruction algorithm

Added:
>
>
For both topics see elog.
 

Technical notes

Revision 32007-01-06 - PeterKammel

Line: 1 to 1
 
META TOPICPARENT name="GeneralPK"
-- PeterKammel - 04 Jan 2007
Line: 36 to 36
  mupHDC.time.gif

Special pm+p diffusion studies

Added:
>
>

Some model distributions for testing Steve's reconstruction algorithm

 

Technical notes

Revision 22007-01-05 - PeterKammel

Line: 1 to 1
 
META TOPICPARENT name="GeneralPK"
Changed:
<
<
-- PeterKammel - 04 Jan 2007
>
>
-- PeterKammel - 04 Jan 2007
 

Diffusion Monte Carlo

Line: 14 to 13
 

Calculations

study condition Cd (ppm) statistics output analyzed with
Changed:
<
<
mudh2n mud in H2 0. 1e9 run/test/h2n.root  
mudHD mud in H2+D 122. 1e8 run/test/mudHD.root  
mupHD mup in H2+D 1.5. 1e8 run/test/mupHD  
mupHDC mud in H2+D 0. 1e8 run/test/mupHDC  
>
>
mudh2n mud in H2 0. 1e9 run/test/h2n.root make_h2.C->h2n.root, c_pout.C, plot_t("h2n.root", pout.C++
mudHD mud in H2+D 122. 1e8 run/test/mudHD.root make_h2.C->mudHD.root, c_pout.C, plot_t("mudHD.root", pout.C++
mupHD mup in H2+D 1.5. 1e8 run/test/mupHD mupHD.C, time, radius
mupHDC mud in H2+D 122. 1e8 run/test/mupHDC mudHD.C, time, radius
 

P_out function and decay rates

Added:
>
>
Extracted from mudh2n and mudHD simulation and already included in latest time analysis note.
 

Full kinetics range and time

Deleted:
<
<
Actually ppm formation is not included in full kinetics.
 
Changed:
<
<

Special pm+p diffusion studies

>
>
mp+p hfs scattering
md+d hfs scattering
md+p scattering
mp->md transfer
ppm formation is not included, but could be.

Summary: Results follow expectations and document main features of diffusion processes. In principle, these results could be used for moment method or 3 par fit. But I leave that to Brendan, because his simulation better accounts for impact parameter and detector resolution.

Production condition: mupHD

mupHD.radius.gif

mupHD.time.gif

Calibration condition: mupHDC

mupHDC.radius.gif

mupHDC.time.gif

Special pm+p diffusion studies

Technical notes

Simulation directory is /home/npl/kammel/mucap/Mucat/run/test Run Mucat on windows machine with MCK_2.bat mupHD

 
Added:
>
>
This creates output in directory mupHD. Analyze on the local directory. Copy make_h2 root files to test directory and continue with c_out.C etc. Completed studies saved as mupHD.tar.gz, for example.
 
Changed:
<
<

Technical notes

>
>
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167966640" name="mupHDC.time.gif" path="mupHDC.time.gif" size="15116" user="Main.PeterKammel" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167964743" name="mupHD.radius.pdf" path="mupHD.radius.pdf" size="24477" user="Main.PeterKammel" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167966455" name="mupHDC.radius.gif" path="mupHDC.radius.gif" size="16265" user="Main.PeterKammel" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167965933" name="mupHD.radius.gif" path="mupHD.radius.gif" size="17387" user="Main.PeterKammel" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167964550" name="mupHD.time.pdf" path="mupHD.time.pdf" size="24518" user="Main.PeterKammel" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167966003" name="mupHD.time.gif" path="mupHD.time.gif" size="13897" user="Main.PeterKammel" version="1"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167964773" name="mupHDC.radius.pdf" path="mupHDC.radius.pdf" size="26091" user="Main.PeterKammel" version="3"
META FILEATTACHMENT attr="" autoattached="1" comment="" date="1167963941" name="mupHDC.time.pdf" path="mupHDC.time.pdf" size="24618" user="Main.PeterKammel" version="1"

Revision 12007-01-04 - PeterKammel

Line: 1 to 1
Added:
>
>
META TOPICPARENT name="GeneralPK"

-- PeterKammel - 04 Jan 2007

Diffusion Monte Carlo

Goals

  • Study P_out functions more carefully and with md+d scattering
  • Generate time and radius functions with "full kinetics" and understand them
  • Study range of mp diffusion with different scenarios and compare to Adamczak
  • Check effect of high energy pm's generated during cascade

Calculations

study condition
<-- -->
Sorted ascending
Cd (ppm) statistics output analyzed with
mudh2n mud in H2 0. 1e9 run/test/h2n.root  
mudHD mud in H2+D 122. 1e8 run/test/mudHD.root  
mupHDC mud in H2+D 0. 1e8 run/test/mupHDC  
mupHD mup in H2+D 1.5. 1e8 run/test/mupHD  

P_out function and decay rates

Full kinetics range and time

Actually ppm formation is not included in full kinetics.

Special pm+p diffusion studies

Technical notes

 
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