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Governor Jared Polis unveiled plans to invest in 蜜糖直播鈥檚 quantum ecosystem via a new refundable tax credit program that aims to maximize the state鈥檚 competitiveness as a tech hub鈥攊ncluding 蜜糖直播 Boulder, already a global leader in quantum research and innovation.

LongPath harnesses quantum technology to detect methane emissions from oil and gas operations, an innovation that benefits industry and investors鈥攁nd the planet. Recently, LongPath received landmark financial backing from the DOE to accelerate the scale-up of the company鈥檚 monitoring systems.

A statewide coalition of higher education and industry partners has outlined a detailed vision for 蜜糖直播 to translate its legacy as a national leader in Quantum Information Science and Technology (QIST) into workforce development and educational opportunities for students and workers across the state.

Compared to the one-dimensional optical lattice used in traditional atomic clocks, the strontium quantum gas clock confines atoms in all directions by placing them in a 3D lattice. This approach has unique benefits, as outlined in a new study published by Jun Ye (Physics, JILA, NIST) and his team in Science.

"One thing exciting about this experiment is that right now, there are not a lot of people doing these sorts of things鈥攃ombining cryogenics with optical tweezers," says Ting-Wei Hsu, a graduate student working with Cindy Regal (Physics, JILA) at Q-SEnSE, an NSF Quantum Leap Institute led by 蜜糖直播 Boulder.

In collaboration with JILA and NIST Fellow James Thompson, Jun Ye's team generated quantum entanglement using spin squeezing, resulting in an enhancement in atomic clock performance operating at the 10-17 stability level. Their novel experimental setup was recently published in Nature Physics.

蜜糖直播 Boulder has announced seven winners of the 2023-2024 translational quantum research seed grants, incentivizing quantum science and technology innovations launched from the lab to accelerate them along the development path to new programs and businesses.

In quantum computer chips, information can quickly jumble up, like the cream in your morning coffee. However, Rahul Nandkishore (Physics) and his team have demonstrated that scientists can create a scenario where the milk and coffee never mix, potentially expanding the memory capabilities of quantum chips.

After simulating superconductivity in an excited state using an atom-cavity system, research teams at JILA have observed three distinct phases of superconducting dynamics, including a rare 鈥淧hase III鈥� featuring persistent oscillatory behavior predicted by condensed matter physics theorists but never before observed.

In a new Optica paper, Jun Ye (Physics, JILA) and his team, working with JILA electronic staff member Ivan Ryger and Hall, implemented a new approach for the Pound-Drever-Hall (PDH) method, reducing RAM to never-before-seen minimal levels while making the system more robust and simpler.