H. Park scite author profile

H. Park

5Publications

44Citation Statements Received

25Citation Statements Given

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Adelphi Technology (United States)

Publications

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Microscope using an x-ray tube and a bubble compound refractive lens

Piestrup

Gary

Park

et al. 2005

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We present x-ray images of grid meshes and biological material obtained using an unfiltered x-ray tube and a compound refractive lens composed of microbubbles embedded in epoxy inside a glass capillary. Images obtained using this apparatus are compared with those using a synchrotron source and the same lens. We find that the field of view is larger than that obtained using the synchrotron source, whereas the contrast and resolution are reduced. Geometrical distortion around the edges of the field of view is also reduced. The experiments demonstrate the usefulness of the apparatus in a modest laboratory setting.

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Grazing incidence parametric X-ray emission

Nasonov

Zhukova

Piestrup

et al. 2006

Nuclear Instruments and Methods in Physics Research Section B:

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High resolution x-ray microscope

Gary

Park

Lombardo

et al. 2007

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The authors present x-ray images of grid meshes and biological material obtained using a microspot x-ray tube with a multilayer optic and a 92-element parabolic compound refractive lens (CRL) made of a plastic containing only hydrogen and carbon. Images obtained using this apparatus are compared with those using an area source with a spherical lens and a spherical lens with multilayer condenser. The authors found the best image quality using the multilayer condenser with a parabolic lens, compared to images with a spherical lens and without the multilayer optics. The resolution was measured using a 155-element parabolic CRL and a multilayer condenser with the microspot tube. The experiment demonstrates about 1.1μm resolution.

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Extreme ultraviolet emission from non-relativistic electrons penetrating a multilayer nanostructure

Nasonov

Kubankin

Zhukova

et al. 2007

Nuclear Instruments and Methods in Physics Research Section B:

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Projection-type x-ray microscope based on a spherical compound refractive x-ray lens

Dudchik

Gary

Park

et al. 2007

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New projection-type X-ray microscope with a compound refractive lens as the optical element is presented. The microscope consists of an X-ray source that is 1-2 mm in diameter, compound X-ray lens and X-ray camera that are placed in-line to satisfy the lens formula. The lens forms an image of the X-ray source at camera sensitive plate. An object is placed between the X-ray source and the lens as close as possible to the source, and the camera shows a shadow image of the object. Spatial resolution of the microscope depends on the lens focal length, lens aperture and the distance from the source to the object. One to two micron resolution may be achieved by placing the object at a distance of 1-5 mm from the source. The X-ray source may be designed with the target deposited on a 200-µm thick Be window, which permits the object to be placed very close to the emitting surface. The tube focal spot is equal to 1-2 mm. Results of imaging experiments with an ordinary copper anode X-ray tube and a 10-cm focal length spherical compound refractive X-ray lens are discussed.

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H. Park

Microscope using an x-ray tube and a bubble compound refractive lens

Grazing incidence parametric X-ray emission

High resolution x-ray microscope

Extreme ultraviolet emission from non-relativistic electrons penetrating a multilayer nanostructure

Projection-type x-ray microscope based on a spherical compound refractive x-ray lens

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