IBM has just announced a complete overhaul of its Qiskit Chemistry module, plus the new Qiskit Gradients framework, meant both for quantum application developers as well as domain experts with basic knowledge of quantum computing.
Researchers from Sorbonne University in Paris have achieved a highly efficient transfer of quantum entanglement into and out of two quantum memory devices. This achievement brings a key ingredient for the scalability of a future
The quantum walk is the quantum-mechanical analogue of the classical random walk, which offers an advanced tool for both simulating highly complex quantum systems and building quantum algorithms in a wide range of research areas.
TMO University researchers in Russia have demonstrated that individual atoms can be transformed into polaritons. In this new state of matter, photons and atoms form ultra-strong coupling for the first time. The results of this
Honeywell has announced its latest generation of trapped-ion based quantum computing hardware, the System Model H1, the same system used by Honeywell scientists to demonstrate Quantum Volume of 128 in September of 2020. The System Model H1
Researchers at MIT Lincoln Laboratory have created the first Trapped-Ion (TI) Quantum chip with integrated photonics. Honeywell and IonQ both create trapped-ion qubits using an isotope of rare-earth metal called ytterbium. In its chip using integrated
A joint research group at Freie Universität Berlin and Helmholtz-Zentrum Berlin (HZB) has shown a way to simulate the quantum physical properties of complex solid state systems. This is done with the help of complex
Japanese researchers have proposed a method to use time crystals to simulate massive networks with very little computing power. Time crystals are arrangements of matter that repeat in time. Normal crystals, such as diamonds or salt,
Quantum state plays an important role in quantum information processing. Being able to verify these quantum states reliably and efficiently is an essential step towards practical applications of quantum devices. Typically, a quantum device is
Physicists at University of Wisconsin–Madison have identified conditions under which relatively distant atoms communicate with each other in ways that had previously only been seen in atoms closer together. This work opens up new prospects