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Remote Radiation Effects Engineer Jobs (NOW HIRING)

This role is responsible for performing radiation shielding tasks associated with designing ... Location: 530 Gaither Road, Rockville, MD Work Site Expectations: 4 days in office, 1 day remote ...

New

Approval of remote and hybrid work is not guaranteed regardless of work location.For additional ... This position can be filled as a Research and Development Engineer or a non-tenure Research Faculty.

Participate in Failure Modes and Effects Analyses (FMEA), hazard analyses, and radiological safety ... remote handling systems, robotics, or manipulator technologies * Understanding of radiation ...

Participate in Failure Modes and Effects Analyses (FMEA), hazard analyses, and radiological safety ... remote handling systems, robotics, or manipulator technologies * Understanding of radiation ...

Approval of remote and hybrid work is not guaranteed regardless of work location.For additional ... This position can be filled as a Research and Development Engineer or a non-tenure Research Faculty.

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Remote Radiation Effects Engineer information

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$81.5K

$118.4K

$161K

How much do remote radiation effects engineer jobs pay per year?

As of Jul 8, 2026, the average yearly pay for remote radiation effects engineer in the United States is $118,363.00, according to ZipRecruiter salary data. Most workers in this role earn between $90,500.00 and $156,000.00 per year, depending on experience, location, and employer.

How does a Remote Radiation Effects Engineer typically collaborate with cross-functional teams to ensure component reliability in space applications?

As a Remote Radiation Effects Engineer, you will regularly collaborate with design engineers, test engineers, and project managers to assess and mitigate the impact of radiation on electronic components used in space. This often involves participating in virtual meetings to discuss design modifications, reviewing test data, and providing recommendations based on your analysis. Effective communication and documentation are key, as you'll be relied upon to clearly explain complex technical findings and coordinate with geographically dispersed teams to ensure mission-critical components meet reliability standards.

What are Remote Radiation Effects Engineers?

Remote Radiation Effects Engineers are professionals who analyze and mitigate the impact of radiation on electronic systems and materials, often for aerospace, defense, or nuclear applications. Working remotely, they use specialized software and simulations to assess how radiation affects various components, ensuring systems remain reliable in high-radiation environments like space. Their work may include testing, data analysis, and developing protective solutions, all while collaborating with teams virtually. This role typically requires expertise in physics, electrical engineering, or a related field, and familiarity with radiation effects standards and testing protocols.

What is the difference between Remote Radiation Effects Engineer vs Remote Nuclear Safety Engineer?

AspectRemote Radiation Effects EngineerRemote Nuclear Safety Engineer
Required CredentialsEngineering degree, radiation safety certificationsEngineering or nuclear safety certifications, safety training
Work EnvironmentResearch labs, aerospace, electronics industriesNuclear plants, safety compliance settings
Industry UsageElectronics, aerospace, defenseNuclear power, energy sectors

The Remote Radiation Effects Engineer focuses on analyzing how radiation impacts electronic components and materials, often in aerospace or electronics industries. In contrast, the Remote Nuclear Safety Engineer concentrates on ensuring safety protocols in nuclear facilities. While both roles require safety certifications and engineering expertise, their industries and specific responsibilities differ significantly.

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

To thrive as a Remote Radiation Effects Engineer, you need a solid background in electrical engineering, physics, or a related field, along with expertise in radiation effects on electronic components. Familiarity with simulation tools like SPICE, radiation testing protocols, and knowledge of standards such as MIL-STD-883 are typically required, and certifications in aerospace or nuclear industries can be advantageous. Strong analytical thinking, attention to detail, and effective remote communication skills are essential soft skills for success in this role. These competencies ensure accurate analysis, reliable testing, and smooth collaboration with distributed teams to guarantee the resilience of electronic systems in radiation-prone environments.
More about Remote Radiation Effects Engineer jobs
What cities are hiring for Remote Radiation Effects Engineer jobs? Cities with the most Remote Radiation Effects Engineer job openings:
What are the most commonly searched types of Radiation Effects Engineer jobs? The most popular types of Radiation Effects Engineer jobs are:
What states have the most Remote Radiation Effects Engineer jobs? States with the most job openings for Remote Radiation Effects Engineer jobs include:
Infographic showing various Remote Radiation Effects Engineer job openings in the United States as of July 2026, with employment types broken down into 5% As Needed, 74% Full Time, 17% Part Time, and 4% Contract. Highlights an 93% Physical, 1% Hybrid, and 6% Remote job distribution, with an average salary of $118,363 per year, or $56.9 per hour.

Full-time

Re-posted 25 days ago


Job description

ASIC Design Engineer(Remote)
MUST HAVE: AEROSPACE , DEEP UNDERSTANDING ASIC, DO254, DIGITAL CIRCUITS
Position Overview:
We are looking for an experienced ASIC Design Engineer with a strong background in the design, verification, and implementation of Application-Specific Integrated Circuits (ASICs) for aerospace applications. The ideal candidate will have extensive experience working on high-reliability, high-performance digital circuits, and a deep understanding of ASIC design processes, in consideration of DO254.
  1. Key Responsibilities:
  • ASIC Design and Development: Design and develop high-performance, low-power, and highly reliable ASICs for aerospace systems, ensuring compliance with stringent aerospace industry standards like DO254 .
  • System-Level Design Integration: Work closely with system engineers to ensure seamless integration of ASICs into larger aerospace systems, including payloads, communications, and avionics systems.
  • Verification and Testing: Conduct thorough verification and validation of ASIC designs, including functional verification, timing analysis, and design for testability (DFT). Perform failure analysis and debug of complex ASIC designs.
  • RTL Design & Simulation: Write RTL (Register Transfer Level) code in Verilog or VHDL, and perform simulations using industry-standard tools like ModelSim, Cadence, or Synopsys.
  • Design for Reliability: Focus on designing for high-reliability and radiation tolerance,
  • Cross-Functional Collaboration: Collaborate with cross-functional teams like = hardware engineers, software engineers, and test engineers.
  1. Qualifications & Skills:
  • Education: Bachelor's, Master's, or PhD degree in Electrical Engineering, Computer Engineering, or a related field.
  • Experience:
    • Minimum of 5-8 years of hands-on experience in ASIC design for aerospace, defense.
    • Proven expertise in designing ASICs that meet high-reliability standards, such as MIL-STD-883, DO-254, or other aerospace-specific certifications.
    • Solid understanding of digital design, RTL coding (Verilog/VHDL), and ASIC flow (synthesis, place & route, timing analysis).
    • Experience with ASIC verification techniques (e.g., functional verification, simulation, emulation, DFT).
    • Knowledge of radiation-hardened (Rad-Hard) or radiation-tolerant ASIC design principles is a plus.
  • Technical Skills:
    • Expertise in Verilog/ VHDL and experience with ASIC synthesis tools like Cadence Genus, Synopsys Design Compiler.
    • Experience with simulation tools such as ModelSim, VCS, or Xilinx Vivado.
    • Familiarity with timing analysis, power optimization, and signal integrity.
    • Experience in FPGA/ASIC hybrid systems and custom digital logic development.
    • Knowledge of PCB design principles and experience working with high-speed boards is a plus.
  • Soft Skills:
    • Excellent problem-solving and analytical skills, with the ability to troubleshoot complex system-level issues.
    • Strong communication skills to interact with cross-functional teams, including engineers, management, and customers.
    • Ability to work independently with minimal supervision, while also collaborating in a team-oriented environment.
    • Detail-oriented and committed to maintaining high standards of quality, safety, and reliability.
  1. Preferred Previous Experience:
  • Experience with space-based electronics or aerospace communications.
  • Familiarity with ISO 9001, AS9100, or similar quality standards in aerospace.
  • Background in radiation effects on electronics or space environmental testing.
  • Familiarity with FPGA-based ASIC prototyping for aerospace applications.