Difference between revisions of "CD-SAXS"

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(Block-copolymer)
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===Block-copolymer===
 
===Block-copolymer===
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*  Daniel F. Sunday ; Matthew R. Hammond ; Chengqing Wang ; Wen-li Wu ; R. Joseph Kline ; Gila E. Stein [http://nanolithography.spiedigitallibrary.org/article.aspx?articleid=1727051 Three-dimensional x-ray metrology for block copolymer lithography line-space patterns] ''Journal of Micro/Nanolithography, MEMS, and MOEMS'' '''2013''', 12 (3), 031103 [http://dx.doi.org/10.1117/1.JMM.12.3.031103 doi: 10.1117/1.JMM.12.3.031103]
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* Daniel F. Sunday, Matthew R. Hammond, Chengqing Wang, Wen-li Wu, Dean M. Delongchamp, Melia Tjio, Joy Y. Cheng, Jed W. Pitera, and R. Joseph Kline [http://pubs.acs.org/doi/abs/10.1021/nn5029289 Determination of the Internal Morphology of Nanostructures Patterned by Directed Self Assembly] ''ACS Nano'' '''2014''', 8 (8), 8426-8437 [http://dx.doi.org/10.1021/nn5029289 doi: 10.1021/nn5029289]
  
 
==See Also==
 
==See Also==
 
* [[GISAXS]] can directly measure the <math>\scriptstyle (q_y, q_z)</math> plane in a single image, but introduces a [[refraction distortion]] and [[beam projection]].
 
* [[GISAXS]] can directly measure the <math>\scriptstyle (q_y, q_z)</math> plane in a single image, but introduces a [[refraction distortion]] and [[beam projection]].
 
* [[GTSAXS]] can measure the <math>\scriptstyle (q_y, q_z)</math> plane in a single image without distortion, but imposes constrains on sample geometry.
 
* [[GTSAXS]] can measure the <math>\scriptstyle (q_y, q_z)</math> plane in a single image without distortion, but imposes constrains on sample geometry.

Revision as of 14:50, 15 December 2014

Critical-Dimension Small-Angle X-ray Scattering (CD-SAXS) is an x-ray scattering technique that can be used to reconstruct the in-plane and out-of-plane structure of nanostructured thin-films. The technique consists of collecting a series of transmission SAXS images, at a variety of sample rotation angles. These images can be combined to reconstruct the 3D reciprocal-space, in particular probing the slice that contains both in-plane and out-of-plane (film normal direction) information.

The technique derives its name from CD-SEM, which is used to define the 'critical dimension' of a structure. CD-SAXS can also be called rotational-SAXS (RSAXS); indeed the neutron variant is typically called RSANS. It is closely related to a variety of other scattering/diffraction techniques that involve rotating the sample in order to reconstruct reciprocal-space (c.f. pole figures).

CD-SEM is frequently used in the lithography and nanofabrication industry as a metrology for the quality of fabrication process. Similarly, CD-SAXS is ideally suited to quantifying the average structure of well-defined entities such as lithographic line-gratings. Indeed, CD-SAXS can reliably probe a grating's repeat period, height, and sidewall angle (or, more generally, the grating's cross-sectional profile). In principle, this technique can quantify aspects of defects and disorder (e.g. line-edge roughness, LER).

References

Gratings

Lithographic structures

Nanoimprinted polymer

Block-copolymer

See Also

  • GISAXS can directly measure the plane in a single image, but introduces a refraction distortion and beam projection.
  • GTSAXS can measure the plane in a single image without distortion, but imposes constrains on sample geometry.