Senior Photonics Engineer
Company: Impulse Space
Location: Redondo Beach
Posted on: February 13, 2026
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Job Description:
Job Description Job Description Description As a Senior
Photonics/Optical Communications Engineer, you will be responsible
for the end-to-end optical signal chain of our laser communication
system. You will design and integrate the laser transmitter and
optical receiver that drive our high-data-rate link. This includes
the seed lasers, modulators, fiber optics, optical amplifiers on
the transmit side, as well as the fiber-coupled collection optics,
detectors, and front-end electronics on the receive side. You’ll
own the optical link budget and ensure that we meet the required
optical signal-to-noise ratio and sensitivity. This role is very
cross-disciplinary: you will work with the Optical Systems lead &
Modem/DSP. As the Photonics lead, you will have the freedom to
select technologies and shape the architecture and will guide the
team in making the optical link a reality. This position is on-site
and ideal for an engineer with deep experience in fiber optic
sensors and amplifiers who can drive a design from lab prototype to
a space-qualified product. Responsibilities Design and develop the
high-performance optical transmitter for the FSO link. Design the
amplifier chain and manage fiber link budget. Define the interface
between the optical transceiver and the optical head (telescope).
Work on the fiber-to-free-space relay optics, ensure polarization
alignment and beam mode quality are maintained. Work closely with
the team to manage the handover from fiber to telescope and to
accommodate any pointing misalignments or focus adjustments. Own
the optical link budget analysis, calculate and flow down
requirements for launch power, receiver sensitivity, losses, and
noise figure. Model the end-to-end Optical Signal-to-Noise Ratio
(OSNR) and Bit Error Rate (BER) performance as a function of
atmospheric loss, pointing jitter, etc. Identify and work with
vendors for critical optical components. Ensure components meet
space qualifications or develop a plan to ruggedize and test COTS
components for space use (radiation testing, thermal vacuum testing
of lasers, etc.). Provide technical input to the rest of the team
from an optical communications perspective. Work with the Modem/DSP
engineer to define the electrical-optical interface and
pointing/control lead to coordinate fiber coupling. Ensure that the
optical transceiver design aligns with overall system requirements
and assist in system-level testing (e.g. end-to-end test of sending
data over the laser link in a simulated environment). Minimum
Qualifications Bachelor’s or Master’s degree in Electrical
Engineering, Photonics, Optical Engineering, Physics, or related
field. 5 years of hands-on experience developing optical
communication hardware or fiber-optic/photonics systems. Strong
knowledge of lasers and fiber optics. Experience with designing
laser transmitter systems – e.g., working with semiconductor lasers
or fiber lasers, modulators (EOMs/MZMs or acousto-optic
modulators), and optical amplifiers (EDFAs or Raman amplifiers).
Familiarity with managing optical power and nonlinearity
(stimulated Brillouin/Raman scattering, etc.) in high-power fiber
systems. Experience with optical receivers and detectors for
high-speed communications. Knowledge of photodetector types (PIN,
APD, or coherent receivers) and experience designing or testing
high-speed photodiode amplifier front-ends. Understanding of
concepts like shot noise, thermal noise, and how to achieve
sensitivity down to the quantum limit (e.g., using coherent
detection or APDs). Ability to model and analyze optical system
performance. This could include link budget analysis in
MATLAB/Python or using specialized photonic simulation tools.
Comfort with concepts like OSNR, Eb/N0, BER, and using those to
drive design decisions. Experience interpreting optical spectra,
eye diagrams, and constellation diagrams to evaluate system
performance. Extensive hands-on lab experience with photonic
equipment. Proficiency in using optical test instruments (optical
spectrum analyzers, power meters, high-speed oscilloscopes,
bit-error-rate testers, etc.). Skilled in fiber handling (splicing,
connector termination, fiber alignment) and free-space optical
alignment on an optical table. Demonstrated ability to set up
complex optical experiments and troubleshoot issues (misalignments,
reflections, noise sources). Basic familiarity with the electronics
and software needed to drive photonic components. For example,
comfortable reading laser driver and TIA datasheets, setting up
power supplies or bias tees, and possibly programming
microcontrollers or scripts (Python/LabVIEW) to control tunable
lasers or data acquisition systems. Preferred Skills and Experience
Aerospace/space experience is highly valued – e.g., designing
optical or communication hardware for satellites, high-altitude
aircraft, or space instruments. Knowledge of radiation effects on
photonic components (radiation-hardened fiber, radiation-induced
attenuation, etc.) and mitigation strategies. Experience with space
qualification of optics (vibration testing of fiber assemblies,
thermal vacuum operation of lasers) is a major plus. Experience
with coherent optical communication systems (homodyne or
heterodyne). This includes an understanding of I/Q modulators,
optical hybrids, and complex modulation formats (BPSK, QPSK, QAM),
as well as familiarity with frequency/phase locking techniques for
lasers. Familiarity with state-of-the-art photonic components and
tools. For instance, experience with LiNbO? or silicon photonic
modulators, integrated photonic circuits, wavelength division
multiplexing components, and modern optical simulation software
(VPI Photonics, OptiSystem, Lumerical, etc.). Ability to perform or
interpret structural/thermal analysis on optical components.
Additional Information: Compensation bands are determined by role,
level, location, and alignment with market data. Individual level
and base pay is determined on a case-by-case basis and may vary
based on job-related skills, education, experience, technical
capabilities and internal equity. In addition to base salary, for
full-time hires, you may also be eligible for long-term incentives,
in the form of stock options , and access to medical, vision &
dental coverage as well as access to a 401(k) retirement plan .
Impulse Space’s spacecraft manufacturing business is subject to
U.S. export regulations including the International Traffic in Arms
Regulations (ITAR) and Export Administration Regulations (EAR).
This position requires applicants to be either U.S. Persons (i.e.,
U.S. citizen, U.S. national, lawful permanent U.S. resident (green
card holder), an individual granted asylum in the U.S., or an
individual admitted in U.S. refugee status) or persons eligible to
obtain an export license from the U.S. Departments of State,
Commerce, or other applicable U.S. government agencies. Learn more
about the ITAR here. Impulse Space is an Equal Opportunity
Employer; employment with Impulse Space is governed on the basis of
merit, competence and qualifications and will not be influenced in
any manner by race, color, religion, gender, national
origin/ethnicity, veteran status, disability status, age, sexual
orientation, gender identity, marital status, mental or physical
disability or any other legally protected status.
Keywords: Impulse Space, Downey , Senior Photonics Engineer, Engineering , Redondo Beach, California
