Advanced materials, including superconductors, light emitting materials and battery materials, play an ever-increasing role in society today. Studying these materials is key to reducing overall energy consumption for everyday technology. Soft x-rays have the ideal energy for probing the electronic properties of lighter metal and non-metal elements in these materials; x-ray absorption...
This work explores a novel use of absement [L·T] within relational graph theory to model positional kinematics in a relationalistic framework. Unlike traditional vector-based approaches, this method employs rishtar elements—geometric constructs that encode relational distances or durations as object-oriented elements. Here, dimensional time evolution is discrete, universal, and mapped to...
Ptychography is a scanning coherent diffraction imaging technique that reconstructs the two-dimensional complex X-ray transmission function from the far-field diffraction patterns obtained at well known, pre-defined scan points [1,2]. Ptychography played a crucial role in imaging a wide range of technologically important samples ranging from micro-chips to biological cells, spatial resolutions...
The Future Circular Collider electron-positron machine (FCC-ee) is a proposed successor to the Large Hadron Collider at CERN. The design is for a 91 km accelerator ring to allow particles to be accelerated to extremely high energies, ranging from 45.6 GeV to 182.5 GeV per beam in various operation schemes. Two counter-rotating beams will then be brought into collision at specific interaction...
Large-volume, low-background noble-liquid-based detectors have emerged as a leading technology in neutrino science and dark matter physics. A requirement for these experiments is minimizing environmental radiation, including those caused by neutrons from cosmic radiation. This can be achieved by tagging passing muons, which allows vetoing the data stream and subsequent background...
