👉 Gamma engineering is a specialized field within quantum computing and photonics that focuses on manipulating and controlling the gamma (ω) modes of photons, which are the highest frequency modes in optical systems. These modes, typically associated with the fundamental resonant frequencies of optical cavities or waveguides, carry significant quantum information due to their high photon energies and short wavelengths. Gamma engineering involves designing and optimizing materials, structures, and devices to precisely control the properties of these modes, such as their frequencies, lifetimes, and interactions with matter. By doing so, it enables the creation of more efficient and scalable quantum systems, including quantum gates, entanglement sources, and quantum memories, which are crucial for advancing quantum computing, communication, and sensing technologies. This engineering approach leverages advanced fabrication techniques and theoretical models to achieve precise control over the quantum states of light at the gamma frequency range.
