Kirkpatrick–Baez microfocusing optics for thermal neutrons

Abstract Kirkpatrick–Baez neutron supermirrors can efficiently focus neutron beams into small areas with a maximum divergence that is limited by the mirror critical angle. The size of the focal spot is primarily determined by geometrical demagnification of the source and by figure errors in the mirror shape. Ray-tracing calculations show that high-performance Kirkpatrick–Baez supermirrors can preserve neutron-source brilliance when focusing down to tens of microns and can focus approximately two orders of magnitude greater power into 100 μm than is practical without focusing. The predicted performance is near the theoretical limit set by the source brilliance. We describe the phase space arguments, ray-tracing calculations and actual performance of an M3 supermirror system designed to produce a focal spot below 100 μm. Although the current design is optimized for neutron polychromatic microdiffraction, the design principles are widely applicable to a range of neutron science.

[1]  Hidekazu Mimura,et al.  Nearly diffraction-limited line focusing of a hard-X-ray beam with an elliptically figured mirror. , 2002, Journal of synchrotron radiation.

[2]  H. Padmore,et al.  Theory and practice of elliptically bent x-ray mirrors , 2000 .

[3]  P. Cloetens,et al.  Hard X-ray microscopy with reflecting mirrors status and perspectives of the ESRF technology , 2003 .

[4]  Howard A. Padmore,et al.  New schemes for producing high-accuracy elliptical x-ray mirrors by elastic bending , 1996, Optics & Photonics.

[5]  Gene E. Ice,et al.  Microbeam-forming methods for synchrotron radiation , 1997 .

[6]  Lahsen Assoufid,et al.  Elliptical x-ray microprobe mirrors by differential deposition , 2000 .

[7]  J. Mignot,et al.  Neutron diffraction on microsamples under high pressures , 2003 .

[8]  E. D. Isaacs,et al.  Compound refractive optics for the imaging and focusing of low-energy neutrons , 1998, Nature.

[9]  P. Kirkpatrick,et al.  Formation of optical images by X-rays. , 1948, Journal of the Optical Society of America.

[10]  P. Böni,et al.  Focusing neutrons to study small samples , 1997 .

[11]  J. Kortright,et al.  Focusing x‐rays to a 1 μm spot using elastically bent, graded multilayer‐coated mirrors , 1996 .

[12]  R. G. Downing,et al.  Guiding and focusing neutron beams using capillary optics , 1992, Nature.

[13]  M. A. Kumakhov,et al.  A neutron lens , 1992, Nature.

[14]  Peter J. Eng,et al.  Dynamically figured Kirkpatrick Baez x-ray microfocusing optics , 1998, Optics & Photonics.