For the development of a quantum computer, we have realized a quantum gate based on ion traps and a harmonic oscillator with the aid of a matching generator. In addition, we have pioneered the potential QUANTUM SCHRODINGER CHANNEL for secure communication at the ATOMIC scale using classical sources. Government and industry must be prepared to develop these emerging and disruptive technologies in order to secure our communications and financial transactions, remain competitive, drive societal progress, generate employment, foster economic growth, and enhance the quality of life as a whole.

The mission will be able to meet the ever-increasing technological demands of society and will take into account the international technology trends and road maps of leading nations for the development of next-generation technologies. Implementation of the mission would aid in the development and introduction of quantum computers, secure fiber communications, and free space. We cultivate strong relationships with sponsors to improve the capacity to conduct research in a global community and to support a robust infrastructure for inter-disciplinary research. Our centers’ core disciplinary strengths provide the intellectual basis for the multi- and inter-disciplinary research that distinguishes our work. We have gathered exceptional minds from around the world in order to create something extraordinary and address specific national and regional issues. The Hamiltonian interactions between the quantum electromagnetic field and the ion are the originators of this evolution. By approximatively controlling the quantum electromagnetic field produced by the laser, it is possible to realize very large-sized quantum gates, such as the quantum Fourier transform gate, which is used to design the fundamental components of a quantum computer. The quantum algorithm for prime factorization is a big deal for security because it can be used to break RSA encryption, which is a popular way to keep messages private. Thus, by capitalizing on the power of quantum computing, this research team has been able to produce revolutionary solutions for a variety of issues, including.