Joachim Heinitz scite author profile

The pulsed reactor at the Joint Institute of Nuclear Research in Dubna, Russia, has been used to measure six pole figures of an experimentally deformed limestone sample that served as a round robin for neutron texture analysis. The time‐of‐flight data compare favourably with published results, both in resolution and texture information, and establish the technique as a viable alternative to more conventional methods of texture analysis.

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Texture Estimates by Means of Components / Abschätzung der Textur mittels Komponenten

Helming¹,

Schwarzer²,

Rauschenbach³

et al. 1994

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Optimization of MSB for future technology nodes

Doering

Elster

Klein

et al. 2012

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In the ITRS roadmap [1] increasingly long mask write and cycle time is explicitly addressed as a difficult challenge in mask fabrication for the 16nm technology node and beyond. Write time reduction demands have to be seen in relation to corresponding performance parameters like Line Width Roughness (LWR), resolution, placement as well as CD Uniformity.The previously presented Multi Shaped Beam (MSB) approach [2, 3] is considered a potential solution for high throughput mask write application. In order to fully adapt the MSB concept to future industry's requirements specific optimizations are planned.The key element for achieving write time reduction is a higher probe current at the target, which can be obtained by increasing the number of beamlets as well as applying a higher current density. In the present paper the approach of a 256 beamlet MSB design will be discussed. For a given image field size along with a beamlet number increase both beamlet pitch and size have to be optimized. Out of previous investigations, one finding was that by changing the demagnification after the beam forming section of the MSB column the overall performance can be optimized. Based on first electron-optical simulations for a new final lens a larger demagnification turned out to be advantageous. Stochastic beam blur simulation results for the MSB reduction optics will be presented. During the exposure of a pattern layout the number of used beams, their shape and their distribution within the image field varies, which can lead to space charge distortion effects. In regard to this MSB simulation results obtained for an image field of approximately 10x10µm² will be presented. For the 256 beamlet MSB design and resist sensitivities of 20µC/cm², 40µC/cm² and 100µC/cm² write time and LWR simulations have been performed. For MSB pattern data fracturing an optimized algorithm has been used, which increased the beamlet utilization factor (indicates the mean number of beamlets which are used per multi-shot). Finally an update with regard to the required changes of the data path architecture for the 256 beamlet MSB approach will be given. Data integrity as an important aspect of the production worthiness of such a systems will be discussed specifically.

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Joachim Heinitz

The SKAT texture diffractometer at the pulsed reactor IBR-2 at Dubna: experimental layout and first measurements

Projection mask-less lithography (PML2): First results from the multi beam blanking demonstrator

Time-of-Flight Texture Analysis of Limestone Standard: Dubna Results

Texture Estimates by Means of Components / Abschätzung der Textur mittels Komponenten

Optimization of MSB for future technology nodes

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