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1. The stage at which quantum computers can outperform classical computers in solving specific problems.
2. The use of molecules, such as DNA, RNA, or proteins, to perform computational tasks.
3. A quantum gate transforms a qubit from the base states to a superposition state with equal probability of different outcomes.
4. Tiny semiconductor particles with distinct quantum properties that enable the emission and absorption of light at specific wavelengths.
5. A branch of cryptography that uses principles of quantum mechanics to secure communication.
6. DNA computing utilizes the ability of DNA molecules to work together simultaneously, enabling efficient solution of intricate computational problems.
7. In the context of quantum computing, the fundamental concept of existing in multiple states simultaneously is observed by a qubit.
8. Robots at nanometer scales to perform precise tasks inside the human body or other environments.
9. Materials with structured components at the nanometer scale, exhibiting unique properties and applications.
10. The intersection of biology and nanotechnology for applications such as drug delivery, biomaterials, and biosensors.
11. The technique of enclosing nanoparticles or other substances within a protective shell for improved stability and controlled release.
12. A method of transmitting cryptographic keys using quantum communication channels.
13. The process of creating structures, devices, or patterns on the nanoscale, often using techniques like lithography and self-assembly.
14. In quantum computing, a method is employed to safeguard against errors and decoherence that may occur throughout the computation process.
15. The process of building structures atom by atom, or molecule by molecule, to create advanced products with precise specifications.