Scientists are coming closer to the quantum computer technology. Digitalization has provided a better insight to almost everyone in this world. For years and years, researchers tried to come up with a quantum computer and their outlooks for the same are slowly emerging today.
What would be the difference between normal desktop computers and quantum computers?
Comparing it with normal computers, quantum computers will totally work on the principle of quantum physics. They are going to be extremely influential and speedy in solving the problems as compared to the traditional ones. Researchers have to take an additional effort of interpreting physical world problems into the quantum language.
Following are the complexities that can be eliminated with new quantum computers:
- Solving the problem of traveling salesperson problem will be solved efficiently within few clicks.
- Finding the new and better understandings of Human Genome Project. Instead of giving one common treatment to all the patients, quantum computers can help in finding techniques and different treatments for an individual gene temperament. Traditional computers lack in doing so.
- Translating real-world problems into quantum language is going to be a challenging task. Quantum computers won’t find its applications immediately at all of us homes. But, we can still access them from cloud to solve the problems that a traditional computer won’t help you to solve.
What is the law of quantum mechanics?
Quantum mechanism is the field of physics that deals with nature and critical energy levels of different atoms and its sub atoms. It finds its applications mainly in microprocessors, superconductors, magnetic resonance imaging etc.
What different does quantum physics serve from normal computers?
Entanglement: Entanglement is the situation where two different tiny particles get associated with each other not physically but a change in the property of one particle might affect the other.
Superposition: In superposition, two or more particles exist in different states at one particular time instance. One particle has the ability to travel both vertically and horizontally at the same time.
Interference: It is the process of cancellation of particles due to the occurrence of some phenomenon. The well-known experiment of double-slit gives explains the phenomenon of interference.