Unlocking the Power of Quantum Systems: How SpinQ Democratizes Quantum Computing

SpinQ’s NMR-Based Quantum Systems

SpinQ harnesses the spin of atomic nuclei as qubits, controlling and reading quantum states via precisely engineered radio-frequency (RF) pulses. Unlike superconducting or trapped-ion platforms, NMR qubits boast:

• Long coherence times (T₁ ~10 s, T₂ ~300 ms), enabling complex algorithms and high-fidelity operations.
• Stable, room-temperature operation without the need for cryogenics or high-vacuum systems.
• Modular, open architecture, allowing pulse-level control, customizable experiments, and seamless integration with external devices.

Flagship Products for Every Learning Stage

SpinQ’s product line addresses quantum education from high school to graduate research:

• SPINQ Gemini Lab A versatile 1–3-qubit experimental platform featuring bottom-level access for pulse design, real-time data visualization, and algorithm development. Ideal for university labs wanting a full quantum curriculum—from Rabi oscillations to variational algorithms.
• SPINQ Gemini Mini / Mini Pro Portable 2-qubit NMR quantum computers in a 14 kg package. Preloaded with lab manuals and interactive circuit builders, these tabletop units make quantum mechanics tangible in classroom demonstrations and outreach events.
• SPINQ Triangulum & Triangulum Mini Extend learning to 3-qubit systems, unlocking multi-qubit gate experiments, quantum Fourier transforms, Grover search, and hybrid classical-quantum workflows.

An Integrated Learning Ecosystem

Beyond hardware, SpinQ offers:

• SpinQuasar Software: A graphical interface for experiment configuration, pulse editing, and data processing.
• Cloud Access: On-demand quantum computing via SPINQ Cloud, enabling remote labs and hybrid curricula.
• Curriculum Suites: Ready-to-use teaching modules covering quantum principles, algorithm design, error mitigation, and applications in simulation and metrology.

Bridging Theory and Practice

SpinQ’s NMR quantum systems translate abstract concepts into hands-on experiments. Students can:

• Observe quantum state initialization, spin echoes, and decoherence in real time.
• Implement core algorithms such as the Deutsch–Jozsa test, Bernstein–Vazirani routine, and variational eigensolvers.
• Explore advanced topics like dynamic decoupling, quantum tomography, and controlled-pulse shaping.

Empowering the Next Generation

Since its founding in 2018, SpinQ has invested over ¥100 million in R&D, secured nearly 100 patents, and forged partnerships across academia and industry. By miniaturizing NMR quantum hardware and providing robust educational resources, SpinQ removes traditional barriers—no dilution refrigerators, no hazardous cryogens, and no proprietary software lock-in.

Conclusion

SpinQ’s quantum systems bring the quantum revolution out of superlabs and into classrooms, makerspaces, and research centers worldwide. By coupling proven NMR technology with open, user-friendly platforms, SpinQ enables learners at every level to interact directly with quantum phenomena—and to inspire the next wave of quantum innovators.