A numerical simulation of a carbon black suspension cell is
explored which models a laser-induced plasma within a liquid
ethanol medium of approximately 1mm thickness. The simulation model
assumes a laser pulse with a pulse width of approximately 9 nsecs
propagating in the left-to-right direction striking the front
surface of the medium and focusing to a spot within the liquid
volume. When the energy density within a given irradiated volume is
sufficiently high, it ignites the carbon particles and generates a
large number of free electrons, i.e. a plasma. The plasma couples
with the in-coming laser energy on a pico second timescale, thereby
attenuating the intensity of the remaining pulse as it traverses
the medium. The simulation divides the sample into discrete layers
and models the propagation of the plasma through the course of a
single laser pulse containing a total fluence of 1 Joule/cm 2. A
new double layer, time-reversed algorithm is employed which
modifies and extends the capabilities of the existing code. The
older version is used as a baseline for comparison with the new
program.
General
| Imprint: |
Biblioscholar
|
| Country of origin: |
United States |
| Release date: |
September 2012 |
| First published: |
September 2012 |
| Authors: |
Gregg Thomas Anderson
|
| Dimensions: |
246 x 189 x 5mm (L x W x T) |
| Format: |
Paperback - Trade
|
| Pages: |
102 |
| ISBN-13: |
978-1-249-41547-3 |
| Categories: |
Books >
Social sciences >
Education >
General
|
| LSN: |
1-249-41547-0 |
| Barcode: |
9781249415473 |
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