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1. In the context of quantum computing, the fundamental concept of existing in multiple states simultaneously is observed by a qubit.
2. The unauthorized interception of communication intended for other parties, a major concern in quantum cryptography.
3. The application of nanotechnology in healthcare for diagnosis, treatment, and prevention of diseases.
4. A system or device that can perform any computation that a Turing machine can, including DNA computing systems.
5. The elements of nanoscale devices and systems such as nanowires, nanotubes, nanoparticles, and additional nanostructures.
6. In quantum computing, a method is employed to safeguard against errors and decoherence that may occur throughout the computation process.
7. Materials with structured components at the nanometer scale, exhibiting unique properties and applications.
8. The basic unit of quantum information, similar to classical bits but can be in a superposition of both 0 and 1 states.
9. The process of creating structures, devices, or patterns on the nanoscale, often using techniques like lithography and self-assembly.
10. The stage at which quantum computers can outperform classical computers in solving specific problems.
11. A method of transmitting cryptographic keys using quantum communication channels.
12. In quantum computing, there is a phenomenon where two or more qubits establish a correlation and effortlessly share information.
13. A field of study that focuses on the use of DNA molecules for performing computations.
14. A fundamental element of quantum circuits that manipulates qubits with the purpose of executing precise operations.
15. The use of nanoscale materials and devices to create electronic components and circuits with higher efficiency and performance.
16. The intersection of biology and nanotechnology for applications such as drug delivery, biomaterials, and biosensors.