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Quantum Engineering Jobs in Arizona (NOW HIRING)

Quantum Computing Inc.

Process Engineer - H1

Tempe, AZ ยท On-site

Director of Manufacturing Operations About Us Quantum Computing Inc. (QCi) (Nasdaq: QUBT) is an ... D. in Materials Science, Electrical Engineering, Physics, or related field. * 5+ years of ...

Quantum Industrial

Estimator

Mesa, AZ ยท On-site

About Quantum Industrial Services Crawford Mechanical Services, a Quantum Industrial company, is a ... The Mechanical Estimator collaborates with project managers, engineers, and procurement teams to ...

Quantum Computing Inc.

Equipment Technician

Tempe, AZ ยท On-site

Senior Engineer, Chips About Us Quantum Computing Inc. (QCi) (Nasdaq: QUBT) is an innovative, integrated photonics company that provides accessible and affordable quantum machines to the world today.

Quantum Industrial

Safety Coordinator

Mesa, AZ ยท On-site

About Quantum Industrial Services Crawford Mechanical Services, a Quantum Industrial company, is a ... The Safety Coordinator collaborates with project managers, engineers, and field personnel to ...

QUANTUM COMPUTING, INC.

IT Administrator

Tempe, AZ

IT About Us Quantum Computing Inc.(QCi) (Nasdaq: QUBT) is an innovative, integrated photonics ... engineering and fabrication teams in Tempe. This is a hands-on role supporting both end users and ...

Quantum Computing Inc.

IT Administrator

Tempe, AZ

IT About Us Quantum Computing Inc.(QCi) (Nasdaq: QUBT) is an innovative, integrated photonics ... engineering and fabrication teams in Tempe. This is a hands-on role supporting both end users and ...

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Quantum Engineering information

See Arizona salary details

$30.3K

$58.7K

$89K

How much do quantum engineering jobs pay per year?

As of Jun 14, 2026, the average yearly pay for quantum engineering in Arizona is $58,688.00, according to ZipRecruiter salary data. Most workers in this role earn between $43,800.00 and $67,100.00 per year, depending on experience, location, and employer.

What is a Quantum Engineering job?

A Quantum Engineering job involves applying principles of quantum mechanics to design and develop advanced technologies, such as quantum computers, communication systems, and sensors. Quantum engineers work at the intersection of physics and engineering, creating practical solutions for emerging quantum applications. They may specialize in quantum hardware, algorithms, error correction, or materials science. These roles are often found in research institutions, tech companies, and government labs, driving innovation in quantum technologies.

Are quantum engineers in demand?

Quantum engineers are increasingly in demand due to advancements in quantum computing, communication, and sensing technologies. They typically require strong backgrounds in physics, engineering, and programming, with skills in quantum algorithms and hardware development, making them valuable in research labs, tech companies, and government agencies.

What do you do as a Quantum Engineer?

A Quantum Engineer designs, develops, and tests quantum computing systems and technologies. They work with quantum algorithms, hardware such as qubits, and control systems, often using programming languages like Python and specialized tools. Their role involves research, experimentation, and collaboration with multidisciplinary teams to advance quantum applications.

What are the key skills and qualifications needed to thrive in the Quantum Engineering position, and why are they important?

Excelling in Quantum Engineering requires a robust background in physics, mathematics, computer science, and quantum mechanics, often demonstrated through an advanced degree in a related field. Familiarity with quantum programming languages (such as Qiskit or Cirq), simulation software, and laboratory instrumentation is highly valued, along with certifications in quantum technologies or related fields. Strong problem-solving abilities, attention to detail, and effective teamwork and communication skills set top candidates apart. These competencies enable professionals to innovate, troubleshoot complex systems, and succeed in collaborative quantum technology projects.

What engineers make $500,000?

Senior engineers in specialized fields such as aerospace, software, or electrical engineering can earn $500,000 or more annually, especially with experience, advanced skills, and leadership roles. Quantum engineers working in high-level research or at top tech companies may also reach this compensation level, often supplemented by bonuses and stock options.

What did Elon Musk say about quantum computing?

Elon Musk has expressed interest in quantum computing's potential to revolutionize technology, but he has not made specific detailed statements about it. As a CEO involved in advanced technology sectors, he emphasizes the importance of understanding and developing emerging computing paradigms, including quantum technologies, for future innovation.

What are typical daily responsibilities for someone working in Quantum Engineering?

Quantum Engineers often split their time between designing and testing quantum hardware or algorithms, running experiments in the lab, and collaborating with software and research teams. Daily tasks may include developing quantum circuits, troubleshooting experimental setups, analyzing data, and staying current with the latest scientific advancements. Many roles also involve writing technical documentation and presenting findings to colleagues or stakeholders. Working on cross-functional teams, Quantum Engineers collaborate closely with physicists, mathematicians, and computer scientists to advance cutting-edge technology. This dynamic environment offers both technical challenges and continuous learning opportunities.

What are the most commonly searched types of Quantum Engineering jobs in Arizona? The most popular types of Quantum Engineering jobs in Arizona are:
What are popular job titles related to Quantum Engineering jobs in Arizona? For Quantum Engineering jobs in Arizona, the most frequently searched job titles are:
What job categories do people searching Quantum Engineering jobs in Arizona look for? The top searched job categories for Quantum Engineering jobs in Arizona are:
What cities in Arizona are hiring for Quantum Engineering jobs? Cities in Arizona with the most Quantum Engineering job openings:
Quantum Engineering jobs near you
Infographic showing various Quantum Engineering job openings in Arizona as of June 2026, with employment types broken down into 100% Full Time. Highlights an 83% In-person, and 17% Remote job distribution, with an average salary of $58,688 per year, or $28.2 per hour.
Process Engineer Metrology & Yield Enhancement

Process Engineer Metrology & Yield Enhancement

Quantum Computing Inc.

Tempe, AZ โ€ข On-site

Full-time

Posted 2 days ago

Job description

Process Engineer Metrology & Yield Enhancement
Location : Tempe, AZ or Hoboken, NJ or Remote
Division: Engineering
Department : Operations
Reports to : Director of Management Operations
About Us
Quantum Computing Inc. (QCi) (Nasdaq: QUBT) is an innovative, integrated photonics company that provides accessible and affordable quantum machines to the world today. QCi products are designed to operate at room temperature and low power at an affordable cost. The Company's portfolio of core technology and products offer unique capabilities in the areas of high-performance computing, artificial intelligence, cyber security as well as remote sensing applications.
Position Description
This position is responsible for overseeing the development of a 150 mm wafer line based on QCi's thin film lithium niobate (TELN) technology. The successful candidate will work in close collaboration with both the process development and integration team as well as the quantum optics team to develop and continuously improve high volume manufacturable metrology and test point processes for our TFLN products. These processes are designed to monitor line health, feed forward critical process and equipment data to optimize product yields, This candidate also plays a key role in facilitating short term SWAT teams when urgent line impacting defect investigations arise. The candidate will be responsible for designing, developing, deploying and optimizing metrology processes for measuring TFLN devices to achieve safety, quality, cost, and delivery goals for QCi and its customer products. The candidate will work closely with a team of process and equipment engineers and technicians to continuously improve their workflow with the goal of enhancing yield of TFLN devices and creating robust reliable manufacturing processes. Furthermore, the candidate will coordinate the factory metrology and diagnostic equipment calibration program.
Duties and Responsibilities
  • Lead the development and optimization of photolithography and/or wet processes for compound semiconductor applications.
  • Drive process integration and improvement initiatives to enhance device performance and yield.
  • Work closely with the process team in the cleanroom to optimize associated metrology measurements in the fabrication flow of TFLN chips
  • Facilitate the transition of research level chip scale production, to low, to middle volume manufacture at wafer scale
  • Utilize advanced metrology tools such as CD SEM, AFM, ellipsometry, profilometry, XPS, XRD, and optical interferometry for process characterization and defect analysis.
  • Work closely with integration, production, and device engineering teams to integrate photo and/or wet processes into the overall semiconductor fabrication flow.
  • Troubleshoot process deviations, particle contamination, and unit performance issues, implementing corrective actions and continuous improvement strategies.
  • Establish and maintain SPC for process monitoring and optimization.
  • Evaluate and qualify new photo and/or wet chemistries, masks, hardware configurations, and process automation tools.
  • Develop and document process recipes, work instructions, and standard operating procedures (SOPs).
  • Mentor junior engineers and provide /or leadership in semiconductor photo, wet, mask, and associated metrology.

Required Skills and Experience
  • 5+ years' experience in Process Development and Continuous Improvement through predictive/preventive metrology measurement & yield enhancement analysis programs
  • Optical modeling and analysis for coherent micro-optical and photonic systems to understand how systems and in new and novel ways to create, deliver and measure light in our next generation quantum computer systems
  • Apply advanced statistical and analytical methods to identify, quantify, and control risk in complex manufacturing environments.
  • Translate PFMEA outputs into actionable process controls, ensuring proactive prevention of variation rather than reactive correction.
  • Define and implement the inspection methods, calibration systems, and SOPs.
  • Manage calibration programs and maintain compliance with ISO and customer quality standards.
  • Deploy advanced sampling strategies, SPC controls, Cp/Cpk, GR&R, and integrate Minitab/JMP analytics into daily operations.
  • Experience with process characterization and metrology techniques such as/or equivalent SEM, AFM, KLA Optical profiler, Stylus profiler, microscope, spectral analysis, and ellipsometry.

Preferred Skills and Experience
  • 10+ years' experience in Metrology & Yield Enhancement Process development, process integration
  • Experience and understanding of microfabrication for photonics devices, process integration, photonic materials properties and modification, and the incorporation of MEMS and electronic devices. Specific knowledge of lithography, etching, deposition, and associated processing is highly valued.
  • Apply large-scale data analytics to Track-and-Trace datasets, enabling predictive insights and real-time defect containment.
  • Experience with heterogeneous bonding between wafers and chips is valued.
  • Experience working with 5S, and 6 Sigma

Incumbent(s) in this position may be required to perform other duties and special assignments not specifically stated above. Statements outlined in this section are designated as essential job functions in accordance with the Americans with Disabilities Act of 1990.

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