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Power = 4 MW, repetition rate = 50 Hz, Beam energy = 6 GeV ( parabolic distribution ) 2 ns long bunches. 3 cm x 20 cm Beam radius = Rod radius. 3 bunches. 5 bunches. Peak Von Mises Stress [ MPa ]. Pulse length [  s]. Results. TUNGSTEN target operating at 2000 K.

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Presentation Transcript
slide1

Power = 4 MW, repetition rate = 50 Hz,

Beam energy = 6 GeV (parabolic distribution)

2 ns long bunches

3 cm x 20 cm

Beam radius = Rod radius

3 bunches

5 bunches

Peak Von Mises Stress [MPa]

Pulse length [s]

Results

TUNGSTEN target

operating at 2000 K

Energy deposition from MARS

bunch

pulse

LS-DYNA

NB.

The bunches are equidistant.

slide2

Power = 4 MW, repetition rate = 50 Hz,

Beam energy = 6 GeV (parabolic distribution)

2 ns long bunches

3 cm x 20 cm

Beam radius = Rod radius

Radial characteristic

time

3 bunches

5 bunches

Peak Von Mises Stress [MPa]

Time between successive bunches [s]

Results

TUNGSTEN target

operating at 2000 K

Energy deposition from MARS

bunch

pulse

LS-DYNA

NB.

The bunches are equidistant.

slide3

Power = 4 MW, repetition rate = 50 Hz,

Beam energy = 6 GeV (parabolic distribution)

2 ns long bunches

Beam radius = Rod radius

3 bunches in 3 cm diameter target

5 bunches in 3 cm diameter target

3 bunches in 2 cm diameter target

Peak Von Mises Stress [MPa]

Pulse length [s]

Results

TUNGSTEN target

operating at 2000 K

Energy deposition from MARS

bunch

pulse

LS-DYNA

NB.

The bunches are equidistant.

slide4

Radial

characteristic

time

Power = 4 MW, repetition rate = 50 Hz,

Beam energy = 6 GeV (parabolic distribution)

3 bunches (2 ns long)

3 cm x 20 cm

Beam radius = Rod radius

Peak Von Mises Stress [MPa]

Time between successive bunches [s]

Longitudinal characteristic time

Results

TUNGSTEN target

operating at 2000 K

Energy deposition from MARS

LS-DYNA

NB.

The bunches are equidistant.