Krysta Marie Svore, Technical Fellow & VP at Microsoft Azure Quantum, is shaping the future of scalable fault-tolerant quantum computing. From Q# programming to Azure Quantum cloud, her leadership bridges algorithms, error correction, and hybrid models. Featured in the Quantum 100 report, Svore’s vision is transforming quantum computers from theory into enterprise-ready reality. #QuantumComputing #Quantum100

Discover how Professor Tommaso Calarco drives the future of the quantum computer through groundbreaking quantum optimal control research and strategic leadership. From co-authoring the Quantum Manifesto to shaping the €1 billion European Quantum Flagship, his work advances scalable quantum computers, quantum simulation, quantum sensing, and quantum communication by reducing qubit errors, improving control fidelity, and securing Europe’s place in the global quantum computing r

Christian Weedbrook, founder of Xanadu Quantum Technologies, is transforming the future of photonic quantum computers. From Gaussian Quantum Information to Borealis quantum computer advantage and Aurora scalable quantum data centers, his vision bridges hardware, software, and PennyLane for hybrid quantum-classical models. How do photonic quantum computers achieve fault tolerance and scalability?

Chad Rigetti has been at the forefront of superconducting quantum computers, moving the field from academic research to scalable quantum computing platforms. This blog explores his role in building Rigetti Computing, from Fab-1 chip fabrication to cloud-based quantum computer access, his most cited research, and groundbreaking patents. Discover how Rigetti’s vision is shaping the future of quantum computing and answering key questions about the path to useful quantum computer

Christopher Monroe, pioneer of trapped-ion quantum computing, co-authored the first two-qubit CNOT gate in 1995 and shaped scalable ion-trap architectures that power today’s top quantum computers. As co-founder of IonQ, he turned decades of research into cloud-accessible systems on AWS, Azure, and Google Cloud. Balancing caution on hype with optimism, Monroe bridges deep science and commercialization, proving that quantum computing and enterprise innovation are not future myt