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Full Time Ibm Quantum Computing Jobs (NOW HIRING)

Qunett

Quantum Memory Physicist

Boston, MA

... and quantum computing. As an early-stage company actively building out its quantum memory and ... Work Location This is a full-time, onsite position based in Boston, MA. About the role Qunett is ...

Qunett

Quantum Photonics Engineer

Boston, MA

... and quantum computing. As an early-stage company actively building out its quantum memory and ... Work Location This is a full-time, onsite position based in Boston, MA. About the role Qunett is ...

Qunett

Quantum Memory Physicist

Boston, MA · On-site

... and quantum computing. As an early-stage company actively building out its quantum memory and ... Work Location This is a full-time, onsite position based in Boston, MA. About the role Qunett is ...

Qunett

Quantum Photonics Engineer

Boston, MA · On-site

... and quantum computing. As an early-stage company actively building out its quantum memory and ... Work Location This is a full-time, onsite position based in Boston, MA. About the role Qunett is ...

QCi

$254K - $267K/yr

CRO About Us Quantum Computing Inc. (QCi) (Nasdaq: QUBT) is an innovative, integrated photonics ... Employment Type: FULL_TIME

SAIC

Cryptographic Systems Expert

MD · Remote

$120K - $160K/yr

Cyber Subcategory: Cybersecurity Spec Schedule: Full-Time Shift: Day Job Travel: No Minimum ... Analyze and explain the implications of quantum computing on current cryptographic standards.

QCi

Chief Revenue Officer About Us Quantum Computing Inc. (QCi) (Nasdaq: QUBT) is an innovative ... Employment Type: FULL_TIME

QCi

$134K - $185K/yr

Quantum Computing Inc. (QCi) (Nasdaq: QUBT) is an innovative, integrated photonics company that ... FULL_TIME

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Full Time Ibm Quantum Computing information

What is a Full Time IBM Quantum Computing job?

A Full Time IBM Quantum Computing job refers to a professional position at IBM focused on the research, development, or application of quantum computing technologies. Employees in these roles may work on creating quantum algorithms, developing quantum hardware or software, or collaborating with clients to solve complex problems using quantum solutions. Positions may include quantum research scientists, software engineers, or technical consultants. These roles typically require a background in physics, computer science, or related fields, and offer opportunities to work at the forefront of cutting-edge technology.

What is the difference between Full Time Ibm Quantum Computing vs Quantum Software Engineer?

AspectFull Time Ibm Quantum ComputingQuantum Software Engineer
Required CredentialsPhysics or Computer Science degree, specialized in quantum computingComputer Science or related degree, programming skills in quantum languages
Work EnvironmentResearch labs, tech companies, collaborative teamsSoftware development teams, R&D departments
Industry UsageQuantum hardware and research institutionsSoftware development for quantum algorithms and applications
Common Search/ComparisonYesYes

Full Time Ibm Quantum Computing roles focus on hardware research and development, requiring physics and quantum mechanics expertise. Quantum Software Engineers primarily develop algorithms and software for quantum systems, emphasizing programming skills. Both roles are integral to quantum tech advancement but differ in focus and skill set.

What are some common challenges faced by professionals working full-time in IBM Quantum Computing, and how can new hires prepare for them?

Professionals in IBM Quantum Computing often encounter challenges such as staying current with rapidly evolving quantum algorithms and hardware, as well as bridging gaps between theoretical knowledge and practical implementation. New hires may also need to adapt to interdisciplinary collaboration, working closely with physicists, engineers, and software developers. To prepare, applicants should engage in continuous learning, develop strong communication skills, and familiarize themselves with IBM's Qiskit framework and cloud-based quantum platforms. Being proactive in seeking mentorship and participating in internal knowledge-sharing sessions can also help ease the transition.

What are the key skills and qualifications needed to thrive as a Full Time IBM Quantum Computing professional, and why are they important?

To thrive in a full-time IBM Quantum Computing role, you need a strong background in quantum mechanics, computer science, and mathematics, usually supported by an advanced degree in physics, engineering, or a related field. Familiarity with quantum programming languages like Qiskit, experience with quantum hardware simulators, and knowledge of cloud computing platforms are essential technical assets. Strong problem-solving skills, collaboration, and effective communication are vital soft skills that set candidates apart. These skills and qualities are crucial for innovating solutions, advancing research, and working effectively in multidisciplinary teams tackling complex quantum computing challenges.
More about Full Time Ibm Quantum Computing jobs
What are the most commonly searched types of Ibm Quantum Computing jobs? The most popular types of Ibm Quantum Computing jobs are:
What job categories do people searching Full Time Ibm Quantum Computing jobs look for? The top searched job categories for Full Time Ibm Quantum Computing jobs are:
Full Time Ibm Quantum Computing jobs near you
Infographic showing various Full Time Ibm Quantum Computing job openings in the United States as of June 2026, with employment types broken down into 85% Full Time, and 15% Part Time. Highlights an 98% Physical, 1% Hybrid, and 1% Remote job distribution.
Quantum Optics Communication Engineer-Technical Staff

Quantum Optics Communication Engineer-Technical Staff

MIT Lincoln Laboratory

Lexington, MA

Full-time

Medical, Dental, Vision, Retirement, PTO

Posted 2 days ago

Job description

The Optical and Quantum Communication Group develops impactful quantum and classical technologies and system prototypes for use in a wide range of challenging applications in terrestrial, space and underwater environments. Primary areas of research include the development of novel entangled-photon source technologies and quantum memory systems; novel quantum link architectures; sensitive single-photon receivers; novel modulation and coding approaches; multi-format laser-comm modems; robust and compact free-space optical beam directors; and precision beam pointing, link acquisition and tracking systems. The group is leveraging these technologies for use in prototype systems that are deployed in the field to inform next-generation quantum and classical optical system capabilities. Examples of near-term field tests include terabit-per-second direct-to-Earth small-satellite constellations, near-Earth wideband relay laser communication terminal hardware for space and ground terminal use, and next-generation beam-director prototypes that are inherently scalable to deep-space optical comm systems, and quantum state transfer across a regional quantum network testbed.
Position Description
The Optical & Quantum Communications Technology Group is seeking a full-time Quantum Optics Communication Engineer to support programs targeting development of entanglement-based quantum communication network architectures and applications including, for example, distributed sensing and interconnected parallel quantum computing. The successful candidate should be proficient with quantum optical theory and have some familiarity with the experimental implementations and the practical limitations of quantum optical systems. The candidate should be able to analyze architectures for entanglement distribution, including: entanglement generation, Bell-state measurements, quantum memories with photonic interfaces (e.g., diamond defect-center based memories), qubit transduction, entanglement distillation, and interconnected quantum processors. Strongly desired is the ability to conduct information-theoretic communication system analysis with the goal of developing system architecture and design concepts to provide enhanced communications connectivity, bandwidth and performance. It is also desirable for the successful candidate to engage in proof-of-concept hardware or software demonstrations to validate new system capabilities and technology. Finally, familiarity with fiber-optics, integrated photonics, and free-space optical channels is desired.
Minimum Qualifications
  • Ph.D. in Electrical Engineering, Physics, Mathematics
  • Strong mathematical foundation and experience with quantum optics theory
  • Experience working in a quantum optics group performing communications theory, information theory or signal processing analysis
  • Experience with entanglement-based communications, sensing and computing applications and quantum network architectures
  • Experience with state teleportation, fidelity analysis, and entanglement distillation
  • Experience with basic concepts of quantum computing
  • Excellent communication skills, both oral and written
  • Willingness to work in a team environment

Recent Graduate Hiring Range: $145,200-$170,000
Experienced Hiring Range: $145,200-$220,000
Disclaimer: MIT Lincoln Laboratory provides a typical hiring range as a good faith estimate of what we reasonably expect to offer for this position at the time of posting. The final salary offered to a selected candidate will depend on various factors, including-but not limited to-the scope and responsibilities of the role, the candidate's experience, skills and education/training, internal equity considerations and applicable legal requirements. This range reflects base salary only and does not include additional forms of compensation or benefits.
At MIT Lincoln Laboratory, our exceptional career opportunities include many outstanding benefits to help you stay healthy, feel supported, and enjoy a fulfilling work-life balance. Benefits offered to employees include:
  • Comprehensive health, dental, and vision plans
  • MIT-funded pension
  • Matching 401K
  • Paid leave (including vacation, sick, parental, military, etc.)
  • Tuition reimbursement and continuing education programs
  • Mentorship programs
  • A range of work-life balance options
  • ... and much more!

Please visit our Benefits page for more information. As an employee of MIT, you can also take advantage of other voluntary benefits, discounts and perks.
Selected candidate will be subject to a pre-employment background investigation and must be able to obtain and maintain a Secret level DoD security clearance.
MIT Lincoln Laboratory is an Equal Employment Opportunity (EEO) employer. All qualified applicants will receive consideration for employment and will not be discriminated against on the basis of race, color, religion, sex, sexual orientation, gender identity, national origin, age, veteran status, disability status, or genetic information; U.S. citizenship is required.
Requisition ID: 42740

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