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Laser Engineer Jobs in Rochester, NY (NOW HIRING)

Manufacturing Engineer

Rochester, NY · On-site

$70K - $91K/yr

Program and operate laser tracking systems for large-part inspection, alignment, machine ... Partner with Quality Engineering to define critical-to-quality features, measurement methods, and ...

Lead Metrology Engineer

West Henrietta, NY

$98K - $129K/yr

Lead Engineer - Metrology Engineering Semrock Optical Filters, IH&S Position Summary ITAR/EAR ... Lasers, LEDs, and broadband (white-light) sources * Radiometric and photometric power measurements

Lead Metrology Engineer

West Henrietta, NY · On-site

$98K - $129K/yr

Lead Engineer - Metrology Engineering Semrock Optical Filters, IH&S Position Summary ITAR/EAR ... Lasers, LEDs, and broadband (white-light) sources * Radiometric and photometric power measurements

Corning's Manufacturing, Technology and Engineering division (MTE) is recognized as the leader in ... Knowledge of optical materials or coatings used in laser applications This position does not ...

We anticipate & provide timely, valued, leading edge manufacturing technologies and engineering ... Knowledge of optical materials or coatings used in laser applications This position does not ...

Corning's Manufacturing, Technology and Engineering division (MTE) is recognized as the leader in ... Knowledge of optical materials or coatings used in laser applications This position does not ...

PROCESS ENGINEER

Rochester, NY · On-site

$70K - $92K/yr

PROCESS ENGINEER Advantech Industries Inc. is a family-owned manufacturing company based in ... lasers, and turret punches), welding, and mechanical assembly. * With limited supervision and ...

Job Summary: The Coating Engineer provides engineering support for vacuum thin-film coating ... and laser damage. • Proficiency in coating design software and optical simulation tools. • ...

Provide process engineering leadership and production support for the manufacture of Laser Optics. This role is responsible for sustaining and improving existing manufacturing processes, driving ...

Provide process engineering leadership and production support for the manufacture of Laser Optics. This role is responsible for sustaining and improving existing manufacturing processes, driving ...

Provide process engineering leadership and production support for the manufacture of Laser Optics. This role is responsible for sustaining and improving existing manufacturing processes, driving ...

Be Seen First

The coating process engineer will be a key resource in advancing new products, new capabilities ... and lasers businesses. The work will include design, deposition, measurement, and production ...

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Laser Engineer information

See Rochester, NY salary details

$40K

$110.7K

$185.6K

How much do laser engineer jobs pay per year?

As of Jul 17, 2026, the average yearly pay for laser engineer in Rochester, NY is $110,651.00, according to ZipRecruiter salary data. Most workers in this role earn between $63,700.00 and $159,400.00 per year, depending on experience, location, and employer.

Are laser technicians in high demand?

Laser technicians are in high demand in industries such as manufacturing, healthcare, and research, where precision laser equipment is used. The job often requires technical skills, certifications, and familiarity with laser safety protocols, contributing to steady employment opportunities.

What are Laser Engineers?

Laser Engineers are specialized professionals who design, develop, and maintain laser systems used in various industries such as manufacturing, healthcare, telecommunications, and research. They apply principles of physics, optics, and engineering to create and improve devices that generate and use lasers for tasks like cutting, measuring, or medical procedures. Laser Engineers also troubleshoot and optimize laser equipment, ensuring safety and efficiency in their operation. Their work often involves collaborating with multidisciplinary teams to integrate laser technology into products or processes.

What engineering jobs pay 500,000?

Senior engineering roles such as petroleum, aerospace, and software engineers can reach or exceed $500,000 annually, especially with experience, bonuses, and stock options. High-level positions in management or specialized fields often offer compensation in this range, particularly in industries with high profit margins or technical complexity.

What Is a Laser Engineer?

A laser engineer is a type of electrical engineer who specializes in equipment that makes lasers and lasers themselves, sometimes in specialty areas such as advanced optics. As a laser engineer, your job duties include monitoring the laser systems, optimizing the output of the lasers, and researching issues with the performance of the lasers. You may also be required to develop documentation on how to operate and maintain the equipment and train other technicians. To begin a career in this role, you need the same qualifications and skills required of an electrical engineer, as well as experience in the use, operation, and maintenance of laser equipment.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as petroleum, aerospace, or software engineering can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. High-level positions often require advanced degrees, certifications, and a strong track record of project management and technical expertise.

What are some common challenges faced by Laser Engineers when working on new laser system designs?

Laser Engineers often encounter challenges such as maintaining beam quality while increasing power output, managing thermal effects in laser components, and ensuring precise alignment of optical elements. Additionally, integrating lasers with other complex systems and meeting stringent safety standards can be demanding. Collaborating closely with multidisciplinary teams—including mechanical, electrical, and software engineers—is essential to overcome these hurdles and deliver reliable, high-performance laser solutions.

What does a Laser Engineer do?

A Laser Engineer designs, develops, and tests laser systems and components for various applications such as manufacturing, medical devices, or research. They work with optical, electrical, and mechanical systems, often using CAD software and precision instruments, and may require specialized certifications or training in optics and laser safety.

What is the difference between Laser Engineer vs Optical Engineer?

AspectLaser EngineerOptical Engineer
Required CredentialsBachelor's or higher in engineering, physics, or related field; certifications in laser safety or opticsBachelor's or higher in optical engineering, physics, or related field; similar certifications in optics and laser safety
Work EnvironmentLaboratories, manufacturing facilities, research centersResearch labs, manufacturing, product development, optical system design
Industry UsageLaser manufacturing, medical devices, defense, researchOptical systems, imaging, telecommunications, consumer electronics

Laser Engineers and Optical Engineers often share similar educational backgrounds and work environments. However, Laser Engineers focus specifically on laser systems, their design, and application, while Optical Engineers work broadly with optical components and systems, including lenses, fibers, and imaging devices. Both roles are vital in industries like manufacturing, research, and technology development, but Laser Engineers specialize in laser-specific technologies.

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

To thrive as a Laser Engineer, you need a solid background in physics, optics, and engineering principles, usually supported by a degree in electrical engineering, physics, or a related field. Familiarity with laser simulation software, CAD systems, and relevant safety certifications are typically required. Strong problem-solving abilities, attention to detail, and effective teamwork set outstanding professionals apart in this field. These skills ensure the safe and efficient design, development, and maintenance of advanced laser systems for various applications.
What are popular job titles related to Laser Engineer jobs in Rochester, NY? For Laser Engineer jobs in Rochester, NY, the most frequently searched job titles are:
What job categories do people searching Laser Engineer jobs in Rochester, NY look for? The top searched job categories for Laser Engineer jobs in Rochester, NY are:
What cities near Rochester, NY are hiring for Laser Engineer jobs? Cities near Rochester, NY with the most Laser Engineer job openings:
Infographic showing various Laser Engineer job openings in Rochester, NY as of July 2026, with employment types broken down into 90% Full Time, 7% Part Time, and 3% Contract. Highlights an 86% Physical, 4% Hybrid, and 10% Remote job distribution, with an average salary of $110,651 per year, or $53.2 per hour.

Manufacturing Engineer

Tokai Carbon GS

Rochester, NY • On-site

$70K - $91K/yr

Full-time

Posted 8 days ago


Job description

Description:

Basic Summary of Position

The Manufacturing Engineer is responsible for developing, costing, proving out, standardizing, and continuously improving CNC machining, computer-aided design (CAD), and inspection processes to support safe, efficient, and repeatable production. This role encompasses responsibility for the full scope of manufacturing engineering activities—from estimating and complex machine setup through CAD modeling, inspection validation, and full production release—providing hands-on technical leadership on the shop floor.

While the position requires working knowledge and participation across all defined responsibilities, it is recognized that individual engineers may possess deeper expertise in certain functional areas. The engineer is expected to leverage their strengths while collaborating with cross-functional teams and other engineers to ensure complete coverage, consistency, and successful execution of manufacturing, design-for-manufacturability, and metrology practices across the organization.

Key Responsibilities

CNC Programming & Process Development

  • Develop, maintain, and standardize CNC/CAM programs, post processors, templates, toolpaths, and probing routines.
  • Define machining strategies, operations, and process flows to ensure manufacturability, quality, and efficiency.
  • Build and control global tooling libraries, preferred tool lists, and standard machine setups across equipment and plants.

Job Setup, Prove-Out & Production Readiness

  • Create complete job setup packages, including setup sheets, tool lists, fixture designs, operator overviews, and in-process inspection plans.
  • Define work holding methods, probing routines, complex machine setups, and safe job start-up procedures.
  • Prove out complex and first-time machine setups, including multi-operation, multi-axis, tight-tolerance, and high-risk jobs.
  • Lead initial production runs and ensure processes meet quality, safety, and cycle time targets.
  • Train machinists on setup execution, process intent, critical features, and risk mitigation.

Estimating & Costing

  • Develop accurate setup times, machining cycle times, labor requirements, inspection time, andtooling costs to support quoting and production planning.
  • Review engineering drawings and specifications to assess manufacturability, inspection complexity, and cost drivers.
  • Partner with Engineering, Quality, Operations, and Sales to support estimating, quoting, and capacity planning.
  • Identify and implement cost-reduction opportunities through improved methods, tooling, fixturing, and inspection strategies.

Inspection, CMM & Laser Tracking

  • Program, set up, and validate CMM inspection routines for first-article inspection, in-process checks, and final inspection.
  • Program and operate laser tracking systems for large-part inspection, alignment, machine verification, and fixture validation.
  • Design and support inspection fixturing and datum schemes to ensure repeatable, accurate measurements.
  • Partner with Quality Engineering to define critical-to-quality features, measurement methods, and acceptance criteria.
  • Support gauge R&R, inspection process validation, and continuous improvement of metrology methods.

Shop Floor Support & Problem Resolution

  • Serve as a technical escalation point to resolve machining, setup, tooling, inspection, and quality issues on the shop floor.
  • Conduct root cause analysis for scrap, rework, downtime, and measurement discrepancies; implement corrective and preventive actions.
  • Run parts and operate CNC and conventional equipment when necessary to support prove-outs, troubleshooting, development work, or production recovery.
  • Provide hands-on leadership to ensure stable, safe, and efficient production.

Continuous Improvement & Efficiency

  • Analyze production bottlenecks, setup time, spindle utilization, inspection throughput, and inefficiencies; implement improvements.
  • Develop tooling, fixturing, probing, and inspection solutions to increase spindle uptime and reduce overall cycle time.
  • Lead or support Lean, Six Sigma, and continuous improvement initiatives across the organization.

Documentation & Standardization

  • Create and maintain technical documentation, work instructions, templates, inspection plans, and standardized manufacturing methods.
  • Ensure all machining and inspection processes are clearly documented and consistently executed.

Innovation & Capability Expansion

  • Support R&D and manufacturing capability expansion by piloting new materials, machining processes, equipment, inspection technologies, software, and automation.
  • Validate and standardize successful pilots for integration into normal production.

Vendor & Cross-Functional Collaboration

  • Work with outside vendors to design, build, and procure tooling, fixturing, inspection equipment, and set up materials.
  • Communicate effectively with coworkers, management, customers, and suppliers.
  • Work independently and collaboratively as part of cross-functional teams.

Hands-On Manufacturing & Safety

  • Manufacture and inspect parts using conventional machines, CNC equipment, CMMs, and laser trackers as required.
  • Maintain a safe, clean, and organized work environment in accordance with company standards.
  • Adhere to Tokai Carbon GS standards of operation and consistently demonstrate company core values.

Success Indicators

The Manufacturing Engineer is considered successful in this role when the following outcomes are consistently achieved:

  • Jobs are released with complete, accurate setup and inspection documentation, requiring minimal clarification or rework.
  • Complex machine and inspection setups are safely proven out and achieve quality and cycle-time expectations.
  • Estimating accuracy supports reliable quoting, planning, and on time execution.
  • First-article and initial production runs demonstrate high first-pass yield and stable inspection results.
  • Manufacturing and inspection problems are resolved through effective root cause analysis and sustainable corrective actions.
  • Process improvements result in measurable reductions in scrap, rework, setup time, or cycle time.
  • Standardized methods, templates, and documentation reduce variability and enable repeatable execution.
  • Perform ROI analyses to justify investments and improvements, ensuring initiatives deliver measurable productivity and cost benefits
  • Machinists, quality personnel, and leadership view engineers as a trusted technical resource.
  • Collaboration and knowledge sharing strengthen overall manufacturing capability across the organization.
  • Engineering initiatives deliver clear ROI through productivity gains, cost reduction, and enhanced equipment utilization.
Requirements:

Required Qualifications

  • Bachelor’s degree in manufacturing engineering, Mechanical Engineering, or related field or equivalent hands-on experience.
  • Strong CNC machining and CAM experience with direct shop-floor involvement.
  • Demonstrated experience proving out complex machine and inspection setups.
  • Experience with CMM programming and laser tracker setup/operation.
  • Ability to interpret engineering drawings and GD&T.
  • Working knowledge of Lean Manufacturing and continuous improvement practices.