The fundamental laws governing the behavior of particles at microscopic scales.
Understanding the strange and counterintuitive nature of quantum reality.
The ability of a quantum system to maintain multiple states simultaneously.
Quantum states that cannot be described independently of each other.
Mathematical description of a quantum state's properties.
Fundamental limits to knowledge of certain pairs of physical properties.
Practical implementations of quantum phenomena in real-world technologies.
Utilizes qubit superposition and entanglement to perform massive parallel calculations.
Learn More →Ensures unbreakable security through quantum communication principles.
Learn More →Develops materials with novel properties through quantum engineering.
Learn More →Key developments and breakthroughs in quantum science.
Max Planck introduces the idea that energy is quantized in discrete units.
Google's Sycamore processor achieves quantum advantage over classical computers.
While quantum mechanics has transformed science, researchers still face numerous technical and theoretical challenges.