https://phys.org/news/2021-12-high-energy-resolution-lanthanum-hexaboride-nanowire-based-field.html


DECEMBER 10, 2021

Development of a high-energy-resolution, lanthanum hexaboride nanowire-based field emission gun

by National Institute for Materials Science

Development of a high-energy-resolution, LaB6 nanowire-based field emission gun
SEM image of the LaB6 nanowire-based electron source. An atomic resolution image of single-layer graphene taken by a TEM equipped with this electron source is shown in the boxed image at upper right. Credit: Koji KimotoNational Institute for Materials Science

The National Institute for Materials Science (NIMS) and JEOL, Ltd. have developed a lanthanum hexaboride (LaB6) nanowire-based field emission gun that is installable on an aberration-corrected transmission electron microscope (TEM). This combined unit is able to perform atomic resolution observation at an energy resolution of 0.2 eV—the highest resolution ever recorded for non-monochromatic electron guns—with a high current stability of 0.4%.

Unsuccessful efforts have been made for more than 20 years to develop field emission guns using theoretically high-performance nano materials. It has been found challenging to integrate a nanowire-based field emission gun into an electron microscope without undermining its physical properties, such as lives and stability. For this reason, commercially available field emission guns are still equipped with tungsten needles developed more than half a century ago.

This NIMS-JEOL research team (1) developed techniques to chemically synthesize and grow high-purity, single-crystal nanowires of LaB6, known to be an excellent electron-emitting hot cathode material, (2) designed an electron source mechanism capable of efficiently emitting electrons and (3) developed techniques to extract a single nanowire and integrate it into an optimized electron source structure.

The LaB6 nanowire-based electron source has a number of advantages: relatively moderate vacuum condition requirements, very high current stability, low extraction voltage, narrow electron beam energy distribution width and high brightness. This electron source may be applicable to the development of next-generation field emission electron microscopes with higher spatial and energy resolution—potentially valuable tools in the semiconductor and medical fields.

The research was published in Nature Nanotechnology.

  • Development of a high-energy-resolution, LaB6 nanowire-based field emission gunComparison of the noise ratios of the LaB6 nanowire-based electron source (blue) and the conventional tungsten field emission electron source (red). Credit: Koji KimotoNational Institute for Materials Science
  • Development of a high-energy-resolution, LaB6 nanowire-based field emission gunComparison of the electron beam energy distributions of the LaB6 nanowire-based electron source (blue), the conventional tungsten field emission electron source (red) and the conventional Schottky electron source (gray). Credit: Koji KimotoNational Institute for Materials Science
  • Development of a high-energy-resolution, LaB6 nanowire-based field emission gunComparison of the noise ratios of the LaB6 nanowire-based electron source (blue) and the conventional tungsten field emission electron source (red). Credit: Koji KimotoNational Institute for Materials Science
  • Development of a high-energy-resolution, LaB6 nanowire-based field emission gunComparison of the electron beam energy distributions of the LaB6 nanowire-based electron source (blue), the conventional tungsten field emission electron source (red) and the conventional Schottky electron source (gray). Credit: Koji KimotoNational Institute for Materials Science


Explore furtherAn ultra-bright and highly coherent electron source developed for electron-beam analytical instrument


More information: Han Zhang et al, High-endurance micro-engineered LaB6 nanowire electron source for high-resolution electron microscopy, Nature Nanotechnology (2021). DOI: 10.1038/s41565-021-00999-wJournal information:Nature NanotechnologyProvided by National Institute for Materials Science

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