Diamond scientists have developed the first Alvarez X-ray ‘zoom’ lens for synchrotrons
In the 1960s, scientist Luis Walter Alvarez invented the Alvarez lens, an optical system that uses a pair of lenses to create a variable zoom. The two lenses sit one in front of the other in the optical beam, and a lateral shift of the lenses relative to each other (perpendicular to the beam) changes the optical power of the Alvarez pair. An Alvarez lens requires cubic surfaces that are challenging to fabricate, and it wasn’t until 2000 that researchers at Lawrence Livermore National Laboratory were able to create a practical optical Alvarez lens device. However, with the refractive index of all material being very close to 1 for X-rays, X-ray optics are far more challenging. In work recently published in Nature Communications, optics scientists from Diamond’s Optics and Metrology Group have developed an X-ray version that can dynamically vary the position of the focal plane of the X-ray lenses and mirrors used on many synchrotron beamlines. Adding Alvarez X-ray lenses (AXLs) to beamlines could improve the quality of focused X-ray beams and help exploit the higher quality X-rays from next-generation synchrotrons such as Diamond-II.
Next-generation X-ray Optics
Many synchrotron facilities are implementing, or planning to implement, lattice upgrades that both reduce source emittance and increase X-ray coherence. Combined with advances in manufacturing X-ray optics, this means that diffraction-limited focusing of X-rays onto samples is on the horizon. However, optics misalignment and fabrication errors can introduce aberrations into the X-ray focusing system, so correction of the X-ray wavefront may be needed to ensure precise alignment of the beam onto the sample. Where compound X-ray refractive lenses (CRL) are used, a change in the energy of X-rays changes the lens focusing power, moving the focal plane along the z-axis. And in some situations, such as the use of environmental sample chambers, movement of the sample itself is constrained. It would, therefore, be helpful for beamlines to have a mechanism to independently adjust the vertical focus and the longitudinal position of the horizontal focus.
The variable focusing strength of an Alvarez lens means the position of its focus can be changed. However, they had only been used in visible optical systems. Diamond’s Optics Group has now developed an X-ray version that can dynamically vary the position of the focal plane of the X-ray lenses and mirrors used on many beamlines.
Vishal Dhamgaye is a Beamline Scientist working in Diamond’s Optics & Metrology Group, and lead author on the paper. He says:
Our Alvarez X-ray lens (AXL) uses two inline, profiled refractive plates. The concept is the same as the optical Alvarez lens, but the refractor plates are much smaller – 400 microns, with a thickness of 0.4-1.6 mm. Our design was fabricated at the microfabrication facility at the University of Lancaster.
The two refractor plates in the AXL can be independently translated in the direction transverse to the X-rays. Using a pair of AXLs allows beamline staff to change the X-ray focusing in two transverse directions, compensating for astigmatism, defocus and coma aberrations.
Read more on Diamond Light SourceĀ website