Applied Quantum Researcher - Photonics
Role details
Job location
Tech stack
Job description
You will work alongside multidisciplinary scientists and engineers to transform cutting-edge research into functional prototypes, intellectual property, and real-world technology solutions. This position offers the opportunity to contribute to foundational quantum research while helping build scalable systems that move quantum technologies from the laboratory toward practical deployment., * Design, develop, and optimize quantum photonic devices and subsystems focused on quantum communication, single-photon generation, entanglement distribution, and ultra-low-count measurement techniques.
- Conduct advanced research in quantum information science, including quantum interference, squeezed states of light, mode decomposition, and other emerging quantum phenomena.
- Investigate and develop novel quantum-enabled methodologies and applications beyond traditional quantum information processing.
- Design and execute rigorous experimental programs to characterize quantum photonic devices under varying environmental conditions, including temperature, vibration, and electromagnetic influences.
- Develop, test, and integrate single-photon sources and quantum photonic components into larger system architectures while maintaining quantum state fidelity and overall system performance.
- Contribute to the development of quantum information testing infrastructure, including automated measurement platforms, calibration methodologies, and standardized validation processes.
- Analyze experimental results and communicate findings through technical reports, presentations, publications, and intellectual property disclosures.
- Collaborate closely with physicists, optical engineers, electrical engineers, software developers, and fabrication specialists to advance research objectives and deliver technical milestones.
- Support the transition of concepts from theoretical investigation to prototype demonstration and technology maturation.
- Actively contribute to a culture of innovation, scientific excellence, and workplace safety.
Requirements
Do you have experience in Validation design?, Do you have a Doctoral degree?, * Ph.D. in Physics, Applied Physics, Electrical Engineering, Optical Engineering, Quantum Engineering, or a related technical discipline.
Technical Expertise
Quantum Systems
- Deep understanding of quantum mechanics and quantum photonic systems, including:
- Entanglement generation and characterization
- Quantum state engineering and manipulation
- Mode decomposition techniques
- Nonlinear quantum state generation
- Spin-based quantum systems and associated physics
Optical Systems
- Strong hands-on experience with:
- Laser systems and optical instrumentation
- Free-space optical alignment
- Precision optical coupling techniques
- Photon detection technologies
- Optical system design and integration
Experimental Research & Instrumentation
- Experience developing and executing complex experimental programs involving:
- Chip-scale and integrated photonic testing
- Precision fiber alignment and packaging
- Instrument synchronization and automated measurement systems
- Data acquisition, validation, and statistical analysis
- Experimental troubleshooting and root-cause investigation
Programming & Data Analysis
- Proficiency in Python, MATLAB, or similar scientific programming environments for:
- Instrument control and automation
- Data processing and visualization
- Modeling and analysis of experimental results
Technical Communication
- Demonstrated ability to communicate complex scientific concepts and research outcomes through technical reports, publications, presentations, and collaborative discussions., Photonic Design & Simulation
- Experience with integrated photonics design and simulation tools such as:
- Lumerical
- COMSOL Multiphysics
- CST Studio Suite
- Finite-Difference Time-Domain (FDTD) simulation methods
Electronics & Systems Integration
- Familiarity with:
- High-speed electronic systems
- PCB design and layout
- Optoelectronic packaging
- Mixed optical-electrical system integration
Fabrication & Process Development
- Experience with semiconductor and photonic fabrication techniques, including:
- Electron-beam lithography
- Thin-film processing
- Etching and microfabrication methods
- Nanofabrication workflows, * Doctorate (Required), * Quantum photonics systems: 4 years (Preferred)
- Single-photon source development: 3 years (Preferred)
- Quantum communication research: 3 years (Preferred)
- Laser systems and optical alignment: 4 years (Preferred)
- Photon detection technologies: 3 years (Preferred)
- Python for scientific analysis: 4 years (Preferred)
- MATLAB for modeling and analysis: 3 years (Preferred)
- Photonics lab experimentation: 4 years (Preferred)
- Integrated photonics testing: 3 years (Preferred)
- Technical papers or publications: 3 years (Preferred)
Benefits & conditions
Pulled from the full job description
- Referral program
- Professional development assistance
- Tuition reimbursement
- Parental leave
- 401(k)
- Health insurance
- 401(k) matching, * 401(k)
- 401(k) matching
- Dental insurance
- Health insurance
- Health savings account
- Life insurance
- Paid time off
- Parental leave
- Professional development assistance
- Referral program
- Tuition reimbursement
- Vision insurance
Application Question(s):
- Will you now or in the future require visa sponsorship?
- Describe your most significant quantum photonics project and your role in its success.
- Tell us about a challenging experiment involving quantum or optical systems and how you solved it.