At that time, the development of quantum computers was still in progress, and quantum mobile computers had not yet become a practical reality.
Quantum computing is a rapidly advancing field that aims to leverage the principles of quantum mechanics to perform computations that are exponentially faster than classical computers for certain types of problems. While significant progress has been made in developing small-scale quantum computers, they are still in the early stages of development and face numerous technical challenges.
As of now, quantum computers require extremely low temperatures and highly controlled environments to operate effectively. This makes it challenging to miniaturize the technology for mobile devices. Additionally, quantum computers require a large number of qubits (the quantum equivalent of classical bits) to perform complex calculations, and current quantum systems have a limited number of qubits.
However, it's important to note that technology evolves rapidly, and it's difficult to predict the exact trajectory of quantum computing. Researchers are actively working on improving quantum systems and developing new technologies that could eventually lead to more compact and mobile quantum devices. It's possible that in the future, advancements may enable the development of quantum mobile computers, but it's uncertain when this might become a practical reality.
It's always a good idea to stay updated with the latest developments in quantum computing research as new breakthroughs may occur that could impact the feasibility of quantum mobile computers.