Specific Process Knowledge/Lithography/EBeamLithography/eLINE

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Process information for the Raith eLINE Plus system

The system was installed in the cleanroom in May 2022. As we get more familiar with the tool this page will be populated with relevant process information.

Dose information

Base doses for exposure must be defined in the Pattern Parameter Calculation window.

The eLINE tool operates with four different design element types; area, curved elements, line and dot. The element types are classified as:

  • Area: Polygons
  • Curved elements: Elements that have an adjustable radius
  • Line: Zero-width line
  • Dot: Single point/vertice element


The software allows the user to define different doses for the four different types of elements and thus it is essential to know how the design is drawn and interpreted. The units used are:

  • Area dose [µC/cm2],
  • Curved element dose [µC/cm2]
  • Line dose [pC/cm]
  • Dot dose [pC].


Also notice that the unit prefix changes from micro to pico. We recommend setting the same dose for area and curved elements.


The dose for each type can be setup under the "Patterning Parameter". Before updating the requested dose the beam current must be measured from the "Patterning Parameter" page. In all tabs the user will set a step size, i.e. the distance between beam positions and a dose. The dwell time must then be updated by clicking the calculate icon next to the dwell time field. The dwell time will be calculated based on the last beam current measurement.


Dot dose, line dose and curved element doses can be disabled in the Patterning Parameter window and in that case the system will IGNORE the type of elements that are disabled, i.e. they will not be written.


We recommend all EBL users to do a dose test prior to exposing samples of significant value. As a starting point you can consider to use the Demo.csf provided on the tool. This pattern is available in the auto generated user folder. The pattern consist of areas, curved elements, lines and dots as shown below.

Overview image of the dose test design provided on the tool.

Table of dose to clear on Si substrate:

Dose [µC/cm2]
Acc. voltage AR-P 6200.09 (180 nm) PMMA 950k AR-N 8200.xx
10 kV 30
20 kV 70
30 kV 100

Typical beam currents

Beam current is a function of acceleration voltage and aperture and thus beam current is locked by the choice of acceleration voltage and aperture. Typical beam currents are given in the table below. Writing time can be estimated in the software once a job is defined, it is however straight forward to estimate in advance based on area to patter, A, dose to clear, d0 and beam current, I as: T = d0*A/I Equations in Labadviser??

Typical beam currents as function of voltage and aperture.

Writing fields

Aspects of WF, dimension and resolution, step size