384 lines
16 KiB
Text
384 lines
16 KiB
Text
<?xml version='1.0' encoding='UTF-8'?>
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<heimer-mind-map alz-format-version="2" application-version="4.3.0">
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<style>
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<color r="221" b="221" g="221"/>
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<edge-color r="17" b="17" g="17"/>
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<grid-color r="153" b="153" g="153"/>
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<arrow-size>20000</arrow-size>
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<edge-width>1000</edge-width>
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<font-family italic="0" overline="0" underline="0" bold="0" strike-out="0" weight="50">Sans Serif</font-family>
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<text-size>14000</text-size>
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<corner-radius>5000</corner-radius>
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</style>
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<graph>
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<node h="75000" i="49" x="1272000" y="-520000" w="200000">
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<text>Theory</text>
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<color r="247" b="118" g="228"/>
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<text-color r="17" b="17" g="17"/>
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</node>
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<node h="97000" i="52" x="64000" y="256000" w="490000">
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<text> survey of required vs available diagnostics to
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measure/determine 6D particle distribution at different
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positions in the linac, e.g. virtual diagnostic available</text>
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<color r="161" b="90" g="229"/>
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<text-color r="17" b="17" g="17"/>
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</node>
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<node h="75000" i="37" x="-536000" y="240000" w="667000">
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<text>- set up necessary diagnostic/detectors/targets for dose rate measurement
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in air and in a water target (including market survey and acquisition)</text>
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<color r="161" b="90" g="229"/>
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<text-color r="17" b="17" g="17"/>
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</node>
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<node h="75000" i="0" x="-640000" y="-136000" w="200000">
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<text>Year 1</text>
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<color r="255" b="255" g="255"/>
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<text-color r="17" b="17" g="17"/>
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</node>
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<node h="97000" i="35" x="-96000" y="360000" w="542000">
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<text>- measurements of 6D particle distribution at accelerator exit
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and investigate dependence on accelerator parameters,
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e.g. pulse length, charge, spot size</text>
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<color r="161" b="90" g="229"/>
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<text-color r="17" b="17" g="17"/>
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</node>
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<node h="120000" i="30" x="1352000" y="384000" w="472000">
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<text>simulate the differences in deposited dose (2D)
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depending on initial distribution accelerator as
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well as in dependence on inclusion of the collective
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effects during beam transport.</text>
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<color r="109" b="193" g="247"/>
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<text-color r="17" b="17" g="17"/>
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</node>
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<node h="120000" i="22" x="-1216000" y="48000" w="457000">
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<text>simulate/evaluate the different operation modes of
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FLUTE (varying pulse length and charge)
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with respect towards dose rate of final electron
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beam, with e.g. FLUKA/EGSnrc</text>
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<color r="109" b="193" g="247"/>
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<text-color r="17" b="17" g="17"/>
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</node>
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<node h="235000" i="7" x="-384000" y="48000" w="788000">
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<text>Phd student - (experimental/simulation) study of beam paramteres influence (on
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charge distribution) and deposited dose at FLUTE (including collective effects if possible)
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experimental setup and diagnostic and dosimetry electron beam in flute,
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extend beyond accelerator and into phantom/target/ … dosimetry, ...dependence on
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beam parameters....pulse length, charge, transverse size/emittance, energy?
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→ provide input for simulations and later cross-checks with simulation
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based on measurement results
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