TAILIEUCHUNG - Coherent diffractive imaging using table top high harmonic generation

In this paper, we review the theoretical and experimental aspects of coherent diffractive imaging using a focused narrow-bandwidth table-top high harmonic source. The review begins with an outline of generation and characterization of the high harmonic source. Theoretical description of coherent diffractive imaging technique is then summarized. The review concludes with our recent results in imaging using a single harmonic beam selected by employing XUV focusing mirrors. | Communications in Physics, Vol. 28, No. 2 (2018), pp. 97-114 DOI: Review paper COHERENT DIFFRACTIVE IMAGING USING TABLE-TOP HIGH HARMONIC GENERATION KHUONG BA DINHa,b ,† , KHOA ANH TRANa , PETER HANNAFORDa AND LAP VAN DAOa a Centre for Quantum and Optical Science, Swinburne University of Technology, Melbourne, Vic 3122, Australia b University of Science and Technology, University of Da Nang, Vietnam † E-mail: kdinh@ Received 28 May 2018 Accepted for publication 13 June 2018 Published 23 June 2018 Abstract. Coherent diffractive imaging (CDI) is a lensless microscopy technique in which the structure of a specimen of interest is probed using a coherent short-wavelength light source. CDI has been widely used in nanotechnology and structural biology to capture high resolution images of non-crystalline objects. In this paper, we review the theoretical and experimental aspects of coherent diffractive imaging using a focused narrow-bandwidth table-top high harmonic source. The review begins with an outline of generation and characterization of the high harmonic source. Theoretical description of coherent diffractive imaging technique is then summarized. The review concludes with our recent results in imaging using a single harmonic beam selected by employing XUV focusing mirrors. These achievements provide a promising technique for the non-crystallographic structural determination of membrane proteins using a table-top extreme ultraviolet source. Keywords: laser applications, nonlinear optics, imaging reconstruction. Classification numbers: , , . c 2018 Vietnam Academy of Science and Technology 98 KHUONG BA DINH, KHOA ANH TRAN, PETER HANNAFORD AND LAP VAN DAO I. INTRODUCTION Visualization of the structure of nanoscale objects based on microscopy is crucial to study dynamic processes in material and biological systems [1]. Conventional microscopy allows a spatial resolution of 200 nm to be resolved.

• Vật lý
• Communications in Physics
• Coherent diffractive imaging using table top high harmonic generation
• Coherent diffractive imaging
• Table top high harmonic generation
• Coherent diffractive imaging
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