As quantum computing hardware advances, the demand for scalable, precise, and fully automated verification techniques for ...

Researchers demonstrated extremely strong nonlinear light-matter coupling in a quantum circuit. Stronger coupling ... depending on whether that qubit is in state 0 or 1, there is a frequency ...

This size range puts the system in an intermediate regime, where superconducting behavior is shaped by both quantum and geometrical constraints. Measurements confirmed that the device enters a ...

Microsoft and Quantinuum claims to have made significant strides in the field of quantum computing ... arrangement known as a Greenberger-Horne-Zeilinger (GHZ) state, which is more intricate ...

In the field of quantum information theory, a GHZ state is a type of entangled state ... unlike conventional lithography or electron beam writing. Circuit reconfigurability, obtained by means ...

Quantum computing researchers are exploring whether quantum ... Quantinuum showcased the H2’s capability by demonstrating a 32-qubit GHZ state (a non-classical state with all 32 qubits globally ...

Now, a new study from scientists from Australia and Poland says that creating a kind of quantum circuit board using time crystals could help overcome these challenges by spreading qubits and ...

We derive bounds on the circuit size for several well-studied ... n \rceil + O(\sqrt{n})$ layers of GHZ state injections. Published in: IEEE Transactions on Quantum Engineering ( Volume: 5 ...

Quantum circuits for the Greenberger–Horne–Zeilinger State and W State are emulated using CMOS oscillators and switches. Spectre simulation results agree with the quantum circuit theory.

Quantum Volume (QV) of 2^5=32 Circuit Layer Operations Per Second (CLOPS) of 2600 20-qubit GHZ state with fidelity greater than 0.5 Q-score of 11 Quantum volume (QV) is a benchmark that ties together ...