SEC Form DEFM14A filed by Crane Harbor Acquisition Corp.
$CHAC
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25-NSE - Crane Harbor Acquisition Corp. (0002054174) (Subject)
8-K - Crane Harbor Acquisition Corp. (0002054174) (Filer)
425 - Crane Harbor Acquisition Corp. (0002054174) (Subject)
3 - Crane Harbor Acquisition Corp. (0002054174) (Issuer)
3 - Crane Harbor Acquisition Corp. (0002054174) (Issuer)
TORONTO, March 26, 2026 (GLOBE NEWSWIRE) -- Xanadu Quantum Technologies Limited ("Xanadu" or the "Company"), a leading photonic quantum computing company, today announced the successful completion of its previously announced business combination with Crane Harbor Acquisition Corp. (NASDAQ:CHAC), a publicly traded special purpose acquisition company, and Xanadu Quantum Technologies Inc. ("Old Xanadu") and US$275 million PIPE financing (the "PIPE Financing"). The Class B Subordinate Voting Shares of Xanadu are expected to trade on Nasdaq and the Toronto Stock Exchange under the ticker symbol "XNDU" starting on March 27, 2026. Xanadu is positioned to be the first publicly listed pure play p
• Xanadu to Become the First Publicly Listed Photonic Quantum Technology Company • Expected to Begin Trading on the Nasdaq and TSX on March 27, 2026 Under Ticker XNDU • Gross Proceeds of Approximately USD$302 Million, In Addition to Previously Announced Negotiations with the Government of Canada and Ontario for an Up to CAD$390 Million Investment, Sets Company Up to Execute Against Technical Roadmap TORONTO, March 19, 2026 (GLOBE NEWSWIRE) -- Crane Harbor Acquisition Corp. ("Crane Harbor") (NASDAQ:CHAC) today announced that its shareholders approved all proposals necessary to complete the previously announced business combination with Xanadu Quantum Technologies Inc. ("Xanadu"), a leadi
TORONTO, March 18, 2026 (GLOBE NEWSWIRE) -- Xanadu Quantum Technologies Inc. ("Xanadu"), a leading photonic quantum computing company, has today announced a novel quantum computational algorithm to accelerate the discovery and analysis of next-generation battery materials. Published as a pre-print article, Xanadu's new research, in collaboration with the University of Toronto and the National Research Council of Canada (NRC) as part of the NRC's Applied Quantum Computing Challenge program, demonstrates how fault-tolerant quantum computers can solve critical challenges to enable the practical application of higher-capacity lithium-excess cathode active materials for lithium batteries. Reso