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<span style="font-size: 90%; text-align: right;">[[Specific_Process_Knowledge/Lithography/EBeamLithography#top|Go to top of this page]]</span>
<span style="font-size: 90%; text-align: right;">[[Specific_Process_Knowledge/Lithography/EBeamLithography#top|Go to top of this page]]</span>


All substrates are grounded to the cassette when proper loaded. In a non-conducting substrate, the accumulation of charges in the substrates will however destroy the e-beam patterning. To avoid this, a charge dissipating layer is added on top of the e-beam resist; this will provide a conducting layer for the electrons to escape, while high-energy electrons will pass through the layer to expose the resist.
All substrates are grounded to the cassette when properly loaded. In a non-conducting substrate, the accumulation of charges in the substrates will however destroy the e-beam patterning. To avoid this, a charge dissipating layer is added on top of the e-beam resist; this will provide a conducting layer for the electrons to escape, while high-energy electrons will pass through the layer to expose the resist.


If you wish to investigate the charge dissipation using other methods than below, please contact [mailto:lithography@danchip.dtu.dk Lithography].
If you wish to investigate the charge dissipation using other methods than below, please contact [mailto:lithography@danchip.dtu.dk Lithography].
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