Add to ORKGA compound X-ray and neutron lenses is an array of lenses with a common axis. The resolution limited by aberration and by diffraction. Diffraction limit comes from theory based on absorption aperture of the compound refractive lenses. Beam passing through transparent lenses form Airy pattern. Results of calculation of diffraction resolution limit for non-transparent X-ray and neutron lenses are discussed
Several approaches are capable of beating the classical 'diffraction limit'. In the optical domain, ...
The results of imaging experiments using biconcave, spherical compound refractive lenses (CRLs) and ...
Compound refractive X-ray lens, consisting of a lot number of placed in-line concave microlenses. is...
A compound X-ray lenses is an array of microlenses with a common axis. The resolution limited by abe...
Compound concave refractive lenses are used for focusing neutron beam. Investigations of spectral an...
This project designed and built compound refractive lenses (CRLs) that are able to focus, collimate ...
Thermal neutron beams are an indispensable tool in physics research. The spatial and the temporal re...
We present the diffraction theory for the x-ray compound refractive tens (XCRL) operation as an imag...
A compound X-ray and neutron lenses is an array of lenses with a common axis. The resolution limited...
Traditionally, high energy x rays are notoriously hard to focus for imaging purposes due to an extre...
We report on recent theoretical and experimental results on diffractive-refractive transmission lens...
In this chapter we describe the fundamentals of X-ray optics with a particular emphasis on refractiv...
Aspherical neutron lenses are discussed in detail as focusing elements for existing small-angle neut...
A lens will collimate the radiation from a point source placed in its focus. Thus the development of...
Clessidra (hourglass) lenses, i.e. two large prisms each composed of smaller identical prisms or pri...
Several approaches are capable of beating the classical 'diffraction limit'. In the optical domain, ...
The results of imaging experiments using biconcave, spherical compound refractive lenses (CRLs) and ...
Compound refractive X-ray lens, consisting of a lot number of placed in-line concave microlenses. is...
A compound X-ray lenses is an array of microlenses with a common axis. The resolution limited by abe...
Compound concave refractive lenses are used for focusing neutron beam. Investigations of spectral an...
This project designed and built compound refractive lenses (CRLs) that are able to focus, collimate ...
Thermal neutron beams are an indispensable tool in physics research. The spatial and the temporal re...
We present the diffraction theory for the x-ray compound refractive tens (XCRL) operation as an imag...
A compound X-ray and neutron lenses is an array of lenses with a common axis. The resolution limited...
Traditionally, high energy x rays are notoriously hard to focus for imaging purposes due to an extre...
We report on recent theoretical and experimental results on diffractive-refractive transmission lens...
In this chapter we describe the fundamentals of X-ray optics with a particular emphasis on refractiv...
Aspherical neutron lenses are discussed in detail as focusing elements for existing small-angle neut...
A lens will collimate the radiation from a point source placed in its focus. Thus the development of...
Clessidra (hourglass) lenses, i.e. two large prisms each composed of smaller identical prisms or pri...
Several approaches are capable of beating the classical 'diffraction limit'. In the optical domain, ...
The results of imaging experiments using biconcave, spherical compound refractive lenses (CRLs) and ...
Compound refractive X-ray lens, consisting of a lot number of placed in-line concave microlenses. is...