Analysis Skills, Artificial Intelligence (AI), Automation, Budgeting, DWDM (Dense Wavelength Division Multiplexing), Electrical Engineering, Electronics, Hardware Development, Health Plan, Identify Issues, Memory Hardware, Network Design, Network System Hardware, Optical Engineering, Optics, Photonics, Physics, Polarization, Prescription Drugs, Python Programming/Scripting Language, Quantum Computing, Quantum Optics, Scalable System Development, Spectroscopy, System Integration (SI), Team Building, Technical/Engineering Design, Vision Plan, WDM (Wavelength Division Multiplexing)
Photonics Engineer
About Qunett
Qunett is developing the foundational hardware layer for quantum networking. Our mission is to build scalable, field-deployable quantum networks through solid-state quantum memory and networking technologies designed to operate beyond the laboratory and integrate directly with real-world infrastructure. At Qunett, physicists and engineers work hands-on with diamond-based quantum devices, photonics, cryogenic systems, and control electronics to translate fundamental quantum capabilities into practical networked hardware. This is a ground-floor opportunity to help shape how quantum systems communicate, scale, and drive the next generation of secure communication, distributed sensing, and quantum computing. As an early-stage company, Qunett seeks physicists and engineers who bring technical range, adaptability, and readiness to contribute across disciplines as the technology and team evolve.
Work Location
This is a full-time, onsite position based in Boston, MA.
About the role
Qunett is seeking a Photonics Engineer to contribute to the photonics team building entangled photon sources and quantum frequency conversion systems. This role is highly hands-on, focused on designing, assembling, and characterizing laser-driven nonlinear/quantum optical experiments that generate and measure biphotons (SPDC) and support system integration (filtering, stabilization, coupling, and detection). The role will own well-scoped experimental modules and deliver measurable improvements in coupling efficiency, stability, and performance.
Required qualifications
- PhD in Physics, Optics, Electrical Engineering, or related field (or MS with equivalent experience)
- Hands-on experience with nonlinear optics and/or quantum optics in laboratory settings
- Extensive experience working with spectroscopic-grade laser systems (alignment, safety, modulation, stabilization fundamentals)
- Experience building and troubleshooting optical setups: free-space and fiber coupling, ABCD matrix analysis and implementation, beam shaping, polarization management, interferometers, and low-noise detection
- Exposure to single-photon sources and/or single-photon detectors (e.g., SNSPDs/APDs), timing electronics, and basic coincidence measurements
- Experience using optical design / engineering tools (e.g., Zemax/OpticStudio or equivalent) to design, tolerance, and iterate optical layouts
- Familiarity with modern software/AI-assisted tools for coding, optimization, and experiment control (e.g., Python-based analysis and automation)
Preferred qualifications
- Experience with SPDC-based entangled photon sources (Sagnac or interferometric geometries), biphoton characterization, and/or HOM-type interference measurements
- Experience with wavelength-division multiplexing concepts (filters, DWDM components), insertion-loss management, and polarization gates
- Experience with laser spectroscopy in solid-state, atomic, or ion systems
- Exposure to micro/nanofabrication or photonic device integration
- Familiarity with quantum networking requirements (entanglement distribution, link budgets, interface constraints)
Benefits
- Comprehensive health coverage including medical, dental, vision, and prescription plans
- 401(k) retirement plan
- Equity participation through stock options for all new hires
- Flexible time off: unlimited PTO, sick leave, and 11 paid holidays
- Employee support benefits including EAP, caregiver support, healthcare advocacy, and more