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Lecture 5: Charged particles

Lecture 5: Charged particles. Charged particle data from the text As time permits=>Source distributions. Charged particle curves. Charged particle coefficients. HW 5.1. Use Table 3.6 to find the range of a 20 MeV proton in water. Check it with Figure 3.15.

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Lecture 5: Charged particles

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  1. Lecture 5: Charged particles • Charged particle data from the text • As time permits=>Source distributions

  2. Charged particle curves

  3. Charged particle coefficients

  4. HW 5.1 • Use Table 3.6 to find the range of a 20 MeV proton in water. Check it with Figure 3.15. • Repeat the problem using MCNP6.

  5. MCNP Example: Add plane surfaces c cells 1 1 -1.0 -100 101 -1 2 1 -1.0 -100 1 -2 3 1 -1.0 -100 2 -3 4 1 -1.0 -100 3 -4 5 1 -1.0 -100 4 -5 6 1 -1.0 -100 5 -6 7 1 -1.0 -100 6 -7 8 1 -1.0 -100 7 -8 9 1 -1.0 -100 8 -9 10 1 -1.0 -100 9 -10 102 0 #(-100 101 -10) -999 999 0 999 c surfaces 100 cx 3 101 px 0 1 px .1 2 px .2 3 px .3 4 px .4 5 px .5 6 px .6 7 px .7 8 px .8 9 px .9 10 px 1.0 999 sph 0 0 0 1000

  6. MCNP Example: Add plane surfaces

  7. HW 5.2 • We are fond of saying that alpha particles are “stopped” by a piece of paper. Use Table 3.6 (with corrections) to determine the energy of an alpha particle that would have a range of 1 cm in water. • Repeat the problem using MCNP6.

  8. MCNP6 particles (subset!)

  9. HW 5.3 • Give me a source-height neutron flux map from a 5 MeV neutron point source in the center of a 10’x10’x10’ room. • There is an identical room (through an intervening wall) next to the room the wall is in. • Assume that the walls are 6” thick concrete. • This is BOTH the xy and the xz view (the + is the source):

  10. Set up a Mesh Tally • This is a mesh of rectangles (you can also do a cylindrical mesh) that the answer will be collected on. • This uses the FMESH card, with the following syntax: FMESHx4:n ORIGIN x0 y0 z0 IMESH x1 IINTS nx JMESH y1 JINTS ny KMESH z1 KINTS nz OUT ij where: (x0,y0,z0) is the lower left corner of the mesh (x1,y1,z1) is the upper right corner of the mesh nx,ny,nz tell how many divisions there are in the mesh in the 3 dimensions OUT ij indicates that you want an (x,y) grid of points (for each z level) (You can use other combinations (e.g., jk would give you a (y,z) grid for each x level)

  11. Set up a Mesh Tally (2) • The mesh itself is put into a file that has ..msht added to your file name • This is if you use the name=file syntax to run MCNP6. Otherwise look for it among the newer files created. • This is how I generally view it in EXCEL: • Open EXCEL • Open the mesh tally file using an editor that you can cut-and-paste from • Go to the line just under the “Tally results” line and copy the entire grid into the EXCEL file • Be aware that it may put each row in a SINGLE cell in the column. If so, highlight the column and use “Data” and “Text to columns” and “Finish” to spread out the rows. • Highlight (grab) the entire table from the upper left hand corner to the lower right (including the x and y coordinates) • Choose “Insert” “Other charts…” and any of the Surface plots • I like to use “Layout” “Axes” “Primary Vertical Axis” to: • Change to a logarithmic scale with Base 2 or Base 10 (depending on what looks best) • Set the color ranges so the colors represents factors of 2 or 10 using the • I also like to click on “3D Rotation” and play with the view (although I also like the “straight down” view using the colors as 2D isoflux lines

  12. Set up a Mesh Tally (3) Test of FMESH tally c cells 1 0 -1 2 2 1 -11.35 -2 999 0 1 c surfaces 1 sph 0 0 0 1000 2 rpp 50 55 -100 100 -100 100 c data mode p sdef erg=2 pos = 0 0 0 par=2 fmesh4:p origin -500 -500 -1 imesh 500 jmesh 500 kmesh 1 iints 40 jints 40 kints 1 out ij imp:p 1 1 0 m1 82000 1

  13. Set up a Mesh Tally (4)

  14. Set up a Mesh Tally (5)

  15. Set up a Mesh Tally (6)

  16. Review for test

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