AI QUaNTUM:

1. The Term “Quantum Jump” in Quantum Mechanics

When energy is applied to an atom, the electron orbiting around the nucleus makes a discontinuous jump from a lower orbit to a higher one, much like climbing a staircase. This seemingly teleporting change concept is frequently used to describe rapid and notable innovation and advancement over a short period.

Over 120 years have passed since the concept of quantum first emerged, and modern quantum physics has been around for over 100 years. The 20th and early 21st centuries, which saw revolutionary changes in human civilization brought about by semiconductor technology based on quantum physics, are referred to as the era of the “First Quantum Revolution.“

2. The Advent of the Second Quantum Revolution

The approaching “Second Quantum Revolution” era can be defined as a time when higher-dimensional quantum physical phenomena such as superposition and entanglement are more freely utilized. Beyond the traditional information unit bit, which takes either 0 or 1, using the superposition property allows the new information basic unit qubit to hold both 0 and 1 simultaneously. Quantum computers, which can perform operations through the entanglement between qubits, will be extensively used in the fields of advanced AI, drug and new material research, energy, space, and solving mathematical problems due to their ability to outperform existing supercomputers.

3. Happy Quantum Life 

Quantum science and technology will overcome the limits of medical, weather, and transportation technologies closely related to people’s daily lives, enabling safer and healthier lives for all citizens. The introduction of quantum computers and quantum sensor technologies, with their outstanding abilities to interpret various variables and derive optimal solutions, will not only secure rapid and precise solutions to social problems but also save significant costs.

a. Innovative Drug Development and High-Quality Medical Services
The integration of quantum science and technology with AI will enable more accurate disease diagnoses and treatments. Quantum computing-based high-performance AI technology will provide clinical data and treatments optimized for patients’ diseases. Additionally, the development of quantum sensor technology will offer more precise imaging scans and analysis results than CT and MRI, enabling ultra-micro cancer diagnosis, observing live viruses, and aiding the development of treatments based on new mechanisms, thereby opening new possibilities for the advancement of cutting-edge medical technologies.

b. Sophisticated Weather and Climate Predictions
Global climate change increasingly impacts daily life, including food production, living environments, and the emergence of new and mutant infectious diseases. In the future, quantum sensors will secure more precise data, and the ultra-fast, large-capacity computational power of quantum computers will be used to process and analyze highly volatile weather data in real time. This will increase the reliability of weather and climate information provision and find solutions to weather disasters, enabling a healthier and more comfortable daily life for citizens.

c. Optimized Transportation Services
Quantum lidar and quantum time sensors will contribute to opening an era of perfect fully autonomous cars, ships, and aircraft by providing precise location information and surrounding sensing capabilities. By analyzing various variables and predicting real-time results in the expanding urban transportation systems, including Urban Air Mobility (UAM) and Purpose-Based Mobility, they will provide safer and more convenient transportation daily to citizens.