Sub-nanograin metal based high efficiency multilayer reflective optics for high energies.

Journal: RSC advances
Published Date: Aug 19, 2021

Abstract

The present finding illuminates the physics of the formation of interfaces of metal based hetero-structures near layer continuous limit as an approach to develop high-efficiency W/BC multilayer (ML) optics with ML periodicity varying = 1.86-1.23 nm at a fixed number of layer pairs = 400. The microstructure of metal layers is tailored near the onset of grain growth to control the surface density of grains resulting in small average sizes of grains to sub-nanometers. This generates concurrently desirable atomically sharp interfaces, high optical contrast, and desirable stress properties over a large number of periods, which have evidence through the developed ML optics. We demonstrate significantly high reflectivities of ML optics measured in the energy range 10-20 keV, except for = 1.23 nm due to quasi-continuous layers. The reflectivities at soft gamma-rays are predicted.

Authors

  • Arindam Majhi
    Synchrotrons Utilization Section, Raja Ramanna Centre for Advanced Technology Indore 452013 India mnayak@rrcat.gov.in.
  • Maheswar Nayak
    Synchrotrons Utilization Section, Raja Ramanna Centre for Advanced Technology Indore 452013 India mnayak@rrcat.gov.in.
  • Paresh Chandra Pradhan
    Advanced Photon Source, Argonne National Laboratory Argonne IL 60439 USA.
  • Suvendu Jena
    Atomic and Molecular Physics Division, Bhabha Atomic Research Centre Mumbai 400085 India.
  • Anil Gome
    UGC-DAE Consortium for Scientific Research University Campus, Khandwa Road Indore 452001 India.
  • Manvendra Narayan Singh
    Synchrotrons Utilization Section, Raja Ramanna Centre for Advanced Technology Indore 452013 India mnayak@rrcat.gov.in.
  • Himanshu Srivastava
    Synchrotrons Utilization Section, Raja Ramanna Centre for Advanced Technology Indore 452013 India mnayak@rrcat.gov.in.
  • Varimalla Raghvendra Reddy
    UGC-DAE Consortium for Scientific Research University Campus, Khandwa Road Indore 452001 India.
  • Arvind Kumar Srivastava
    Synchrotrons Utilization Section, Raja Ramanna Centre for Advanced Technology Indore 452013 India mnayak@rrcat.gov.in.
  • Anil Kumar Sinha
    Synchrotrons Utilization Section, Raja Ramanna Centre for Advanced Technology Indore 452013 India mnayak@rrcat.gov.in.
  • Dinesh Venkatesh Udupa
    Homi Bhabha National Institute Anushakti Nagar Mumbai 400094 India.
  • Ullrich Pietsch
    Universität Siegen Walter-Flex-Strasse 3 Siegen 57072 Germany.

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