They manipulate the state of qubits to perform quantum operations. A few examples include the Pauli-X, Pauli-Y, Pauli-Z, Hadamard, and CNOT gates. Quantum Circuits: A sequence of quantum gates ...

This structure allows for quantum states with low entanglement to be prepared with a small number of Controlled-NOT, or CNOT gates, further reducing complexity. Genetic algorithm for state ...

The next step for this research is to deploy this new technology on ORNL's quantum network. More information: Hsuan-Hao Lu et al, Building a controlled-NOT gate between polarization and frequency ...

Ergo [Davide]’s simulations of various quantum gates on a C64, ranging from Pauli-X, Pauli-Y, Pauli-Z, Hadamard, CNOT and SWAP, all using a two-qubit system running on a system that first saw ...

MicroCloud Hologram (HOLO) announced the proposal of an efficient high-dimensional quantum key distribution protocol for quantum transmission ...

AND-OR-NOT Become Pauli-CNOT-CZ-SWAP-Toffoli In a classical computer, logic gates such as AND, OR and NOT form the circuits that manipulate the data. In a quantum processor chip, gates such as ...

quantum Fourier transform and quantum-controlled NOT gate, to achieve the clever concealment of secret information. Specifically, the secret information is concealed within the relative phases of ...