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Phd Laser Spectroscopy Jobs (NOW HIRING)

Vescent Technologies

Be Seen First

FPGA - DSP Engineer

Golden, CO · On-site

$120K - $170K/yr

Required Qualifications · BS, MS, or PhD in Electrical Engineering, Physics, Applied Physics ... laser stabilization, or atomic spectroscopy. · Experience implementing: o Digital PLLs o DDS/NCO ...

Vescent Technologies

Be Seen First

FPGA - DSP Engineer

Golden, CO · On-site

$120K - $170K/yr

Required Qualifications · BS, MS, or PhD in Electrical Engineering, Physics, Applied Physics ... laser stabilization, or atomic spectroscopy. · Experience implementing: o Digital PLLs o DDS/NCO ...

Vescent Technologies

Be Seen First

FPGA - DSP Engineer

Golden, CO · On-site

$120K - $170K/yr

Required Qualifications · BS, MS, or PhD in Electrical Engineering, Physics, Applied Physics ... laser stabilization, or atomic spectroscopy. · Experience implementing: o Digital PLLs o DDS/NCO ...

IonQ

Senior Quantum Scientist

Boulder, CO · Hybrid

$126K - $166K/yr

... laser-free quantum control methods. Our research and development efforts build on our fully ... You will need a PhD in physics or a related discipline, with a strong foundation in atomic or qubit ...

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Phd Laser Spectroscopy information

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$27

How much do phd laser spectroscopy jobs pay per hour?

As of Jun 13, 2026, the average hourly pay for phd laser spectroscopy in the United States is $19.90, according to ZipRecruiter salary data. Most workers in this role earn between $17.07 and $21.63 per hour, depending on experience, location, and employer.

What are some common interdisciplinary collaborations for professionals in PhD-level laser spectroscopy roles?

PhD-level laser spectroscopy professionals frequently collaborate with experts in fields such as chemistry, materials science, physics, and engineering. These collaborations often involve joint research projects, developing new experimental techniques, or interpreting complex data. Working closely with specialists from other disciplines allows laser spectroscopists to apply their expertise to a wide range of applications, from environmental monitoring to biomedical diagnostics. Such interdisciplinary teamwork not only broadens the impact of their research but also provides valuable opportunities for professional growth and networking.

What are the key skills and qualifications needed to thrive as a PhD Laser Spectroscopy specialist, and why are they important?

To thrive as a PhD Laser Spectroscopy specialist, you need advanced knowledge in physics or chemistry, strong analytical abilities, and a doctoral degree focused on laser-based analytical techniques. Familiarity with spectrometers, lasers, data analysis software, and laboratory instrumentation is typically required, along with experience in programming or computational modeling. Attention to detail, problem-solving skills, and the ability to communicate complex findings clearly are critical soft skills in this field. These competencies enable accurate research, innovation, and effective collaboration in cutting-edge scientific environments.

What is a PhD in Laser Spectroscopy?

A PhD in Laser Spectroscopy is an advanced research-based degree focused on the study and application of laser-based techniques to analyze the properties and behaviors of atoms, molecules, and materials. Students in this program typically engage in experimental and theoretical research involving the interaction of laser light with matter. The field finds applications in physics, chemistry, biology, environmental science, and materials science. Graduates are prepared for careers in academia, research institutions, or industries such as pharmaceuticals, environmental monitoring, and technology development.

What is the difference between Phd Laser Spectroscopy vs Phd Analytical Chemist?

AspectPhd Laser SpectroscopyPhd Analytical Chemist
Required CredentialsPhD in Physics, Chemistry, or related field; specialized training in laser techniquesPhD in Chemistry or related field; expertise in analytical methods
Work EnvironmentResearch labs, universities, industry R&D with focus on spectroscopyLaboratories, manufacturing, quality control, research institutions
Industry UsageOptics, photonics, physics, materials sciencePharmaceuticals, environmental testing, food safety, chemical manufacturing

While both roles require advanced degrees and analytical skills, Phd Laser Spectroscopy specialists focus on laser-based measurement techniques in research and industry, whereas Phd Analytical Chemists apply a broader range of analytical methods for testing and quality control across various industries.

Infographic showing various Phd Laser Spectroscopy job openings in the United States as of June 2026, with employment types broken down into 29% Full Time, 57% Part Time, and 14% Contract. Highlights an 94% Physical, 1% Hybrid, and 5% Remote job distribution, with an average salary of $41,394 per year, or $19.9 per hour.
Optical Hardware Engineer, Foundry

Optical Hardware Engineer, Foundry

Arcadia Science

Emeryville, CA • On-site

$185K - $225K/yr

Full-time

Posted 15 days ago

Job description

A Bit About Us
We are Arcadia Science, an evolutionary biology company founded and led by scientists. Our mission is to turn natural innovations into real-world solutions by developing systematic and quantitative approaches to leveraging biology for therapeutics R&D. We share our research as openly as possible to accelerate discovery and make our work broadly useful.
About the role
The Optical Hardware Engineer will be part of the Foundry, Arcadia's division at the interface between R&D and commercial deployment. The goal of this division is to take scientifically validated tools and capabilities from the research team and productionize them for broader use. The Foundry's first focus is Raman spectroscopy. This role will report directly to the CEO.
You will start with an effort around optimizing and scaling AutoOpenRaman, an open-source, automated Raman spectrometer we developed for biological research. Now we want to professionalize it for expanded internal and external deployment by optimizing the instrument (e.g., increasing the signal-to-noise, adding laser lines) and making the hardware production-ready, designing and building user-friendly operating and analysis software, and delivering a set-up intuitive enough for a typical life science researcher to use without significant training.
As the Optical Hardware Engineer, you will help drive the hardware engineering side of the project end-to-end: optics, enclosure design, performance improvements, and electronics integration. You will work closely with a software engineer, assay developers, and the scientists who will use the instrument every day. From there, you will help define what external deployment looks like, working with our partners who want to integrate these capabilities inside their own labs and companies.
What you'll work on
  • Lead the design of AutoOpenRaman into a compact, integrated benchtop instrument
  • Design and prototype an enclosure that achieves Class 1 laser safety and that's manufacturable at scale
  • Consolidate the current electronics (stage controller, shutter, calibration light source, laser) into a single integrated system
  • Work with a software engineer to define the hardware-software interface and ensure the instrument behaves predictably under automated control
  • Define the bill of materials and assembly protocol for reproducible builds with an eye toward eventually scaling to 10- or 50-unit production runs
  • Engage vendors, fabrication shops, and laser safety review as needed

What we're looking for
You'll be well-suited for this role if you have:
  • PhD or equivalent hands-on experience designing and building optical instruments (spectroscopy, microscopy, laser systems, or similar)
  • Familiarity with laser safety standards and experience designing enclosed laser systems
  • CAD proficiency
  • Experience with electronics integration at the level of specifying and wiring up stepper controllers, microcontrollers, or similar embedded systems
  • Experience partnering with software engineers to co-develop instrument control GUIs and user workflows that enable intuitive, reliable operation for scientific users
  • Ability to communicate with biologists and understand what actually matters for a life science instrument and a wide range of users
  • Experience taking optical hardware from prototype to a robust, usable state, with attention to the full user experience and future commercial scalability
  • Interest and participation in open-source hardware and science

Nice to have:
  • Direct experience with Raman spectroscopy, either instrument development or hands-on use
  • Familiarity with µManager or similar microscopy control software
  • Experience with design for manufacturability and transitioning from prototype to small-scale production
  • Experience with relevant experimental workflows and sample preparation techniques

$185,000 - $225,000 a year
Compensation:
Successful applicants can expect to be compensated between $185,000- $225,000 with benefits and a competitive equity offering, depending on experience level. The position will require the individual to be on-site at our Emeryville, California headquarters.
Application Process:
Please submit a resume and fully answer all application questions addressing your interest in and qualifications for the position. The review process will involve in-person interviews and a short, practical work test. Employment offers are contingent on reference and background checks.
Arcadia is an equal opportunity workplace; we welcome people from all backgrounds and communities. We provide competitive compensation and practical benefits to keep you happy and healthy so that you can do your best work.

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