[1] It is located at ISIS Neutron and Muon Source in Oxfordshire.
[1][2] LARMOR will be used to make high-precision, deep images of physical objects.
By examining the few interactions that neutrons do have with atoms they encounter and enhancing the imaging using larmor precession, the microscope is predicted to create images with an atom-level resolution.
[1][3] The microscope will allow for observation of magnetic materials, complex liquids and living specimens.
[1] An example of application of this research is improved electronics and charge storage in lithium-ion batteries.