The field of engineering that deals with quantum physics, space, and time research is primarily known as Quantum Engineering or Quantum Technology. Quantum engineering focuses on the development and application of quantum principles and technologies for various fields, including computing, communication, sensing, and more.
Quantum engineering involves designing and building devices that harness quantum phenomena, such as superposition and entanglement, to perform tasks that are beyond the capabilities of classical systems. This can include developing quantum computers, quantum communication systems (e.g., quantum cryptography), quantum sensors, and quantum simulators.
When it comes to research related to space and time, engineering disciplines like Aerospace Engineering and Astrophysics are more directly involved. Aerospace Engineering deals with the design, construction, and operation of vehicles and systems for space exploration and transportation. This field encompasses spacecraft design, propulsion systems, guidance and control, and other technologies required for space missions.
Astrophysics, on the other hand, is a branch of physics and astronomy that focuses on studying celestial objects and phenomena in space. This field involves understanding the fundamental principles of space and time, studying cosmology, and exploring the nature of the universe.
In summary, while Quantum Engineering is a field that intersects with quantum physics, space, and time research, the specific disciplines that address these topics are Quantum Engineering, Aerospace Engineering, and Astrophysics, each with their own distinct focus and applications.