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Optical Stability and Photophysics of NV Centers in Diamond up to 120 GPa
Announce Type: cross Abstract: The nitrogen vacancy (NV) center has emerged as a powerful quantum sensor in high-pressure research, with the observation of optically detected magnetic resonance at megabar pressures. However, some aspects of NV physics require further investigation to optimize the development of NV-based sensing under pressure. Here, we study both experimentally and theoretically the optical properties of the NV center under hydrostatic pressure.
6-K - Lakefront Biotherapeutics NV (0001421876) (Filer)
Filed: 2026-06-05 AccNo: 0001171843-26-003927 Size: 20 KB
New buried-growth process enables 2D arrays of position- and orientation-controlled diamond qubits
New buried-growth process enables 2D arrays of position- and orientation-controlled diamond qubits Sadie Harley Scientific Editor Robert Egan Associate Editor Researchers at Kanazawa University, in collaboration with Diamond and Carbon Applications (Germany), have developed a buried-growth process for nitrogen–vacancy (NV) centers in diamond using microwave plasma chemical vapor deposition (MPCVD). By employing nitrogen-radical selective etching, which simultaneously enhances metal-mask...
Magnetometry with Broadband Microwave Fields in Nitrogen-Vacancy Centers in Diamond
arXiv:2510.11720v2 Announce Type: replace-cross Abstract: Nitrogen-vacancy (NV) centers in diamond are optically addressable and versatile light-matter interfaces with practical application in magnetic field sensing, offering the ability to operate at room temperature and reach sensitivities below pT/$\sqrt{\mathrm{Hz}}$. We propose an approach to simultaneously probe all of the magnetically sensitive states using a broadband microwave field and demonstrate that it can be used to measure the...
Bill Ackman’s Pershing Square to Exit Universal Music Stake
The Universal Music Group headquarters in Santa Monica, California, US, on Tuesday, April 7, 2026. Billionaire activist Bill Ackman has proposed a bid for Universal Music Group NV to increase returns on one of his hedge fund's biggest holdings.
ASML’s Surge to Record High Masks Lowball Valuation Versus Peers
A banner flag with the ASML logo outside the Brainport Industries Campus, which houses the ASML Academy, in Eindhoven, Netherlands, on Wednesday, Jan. 28, 2026. ASML Holding NV's orders in the fourth quarter exceeded analysts' expectations, as the rapid development of artificial intelligence infrastructure boosted demand for its cutting-edge chip-making machines.
Bill Ackman’s Pershing Square Set to Exit Universal Music Stake
The Universal Music Group headquarters in Santa Monica, California, US, on Tuesday, April 7, 2026. Billionaire activist Bill Ackman has proposed a bid for Universal Music Group NV to increase returns on one of his hedge fund's biggest holdings.
A Stock Trader’s Guide to the Start of ECB Interest Rate Hikes
Stocks trading data at the headquarters of Euronext NV in the La Defense business district of Paris, France, on Wednesday, Feb. 18, 2026. France’s economy will sustain steady growth at the start of the year, unchecked by persistent geopolitical risks and uncertainty, the central bank said.
ASML’s Surge to Record High Masks Lowball Valuation Versus Peers
ASML’s Surge to Record High Masks Lowball Valuation Versus Peers ASML Holding NV’s ascent to fresh record highs has been a highlight for European markets, yet it’s done little to improve what is the stock’s cheapest relative valuation in years. While the Dutch company’s shares are up 64% in 2026, the gain has lagged that of the broader US semiconductor sector, which has been lifted by soaring demand for artificial intelligence tools. It’s also behind peers like Applied Materials Inc. and key...
Optically detected nuclear magnetic resonance of carbon-13 in bulk diamond
Announce Type: replace-cross Abstract: Precision measurements based on optically detected nuclear magnetic resonance offer exquisite sensitivity to absolute shifts in spin transition frequencies, with potential applications in fundamental physics experiments and inertial sensing. We investigate 13C nuclear spins in diamond as a candidate system for solid-state implementations, which hold the promise for high-fidelity readout of large numbers of coherent nuclear spins in millitesla or lower...