2026 PhD Graduate - Postdoctoral Researcher - In-Situ Sensing for Additive Manufacturing
Company: Johns Hopkins Applied Physics Laboratory
Location: Laurel
Posted on: January 29, 2026
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Job Description:
Job Description Description Are you passionate about pioneering
advancements in additive manufacturing through cutting-edge sensing
technologies, data fusion, and real-time control? Do you want to
contribute to critical national challenges by enabling intelligent
closed-loop monitoring and control of metal additive manufacturing
processes? If so, we invite you to join our innovative research
team in the Research and Exploratory Development Department (REDD)
at the Johns Hopkins University Applied Physics Laboratory
(JHU/APL). As an In-Situ Sensing Postdoctoral Fellow, you will be
at the forefront of developing and integrating novel sensing
modalities, artificial intelligence (AI), and machine learning (ML)
algorithms to enhance process control, optimize material
properties, and ensure the reliability of additively manufactured
components. Your work will be essential in designing closed-loop
control systems that adapt dynamically to real-time process data,
enabling unprecedented advancements in manufacturing precision and
efficiency. Our team is actively developing next-generation sensing
and control solutions that will allow real-time adjustments to
critical additive manufacturing parameters, such as laser power,
scan speed, and material feed rate. By leveraging multi-modal
sensor data-including optical, thermal, acoustic, and X-ray
imaging-you will help to create intelligent feedback systems
capable of identifying defects, predicting failure points, and
optimizing manufacturing conditions. These advances will not only
push the limits of metal additive manufacturing but will also
enable new applications in mission-critical environments where
reliability is paramount. As an In-Situ Sensing Postdoctoral
Fellow, you will /n - Collaborate with APL scientists, engineers,
and technicians to develop novel closed-loop sensing and control
solutions tailored for additive manufacturing. /n - Perform
pioneering research in materials and process characterization by
fusing in-situ sensing modalities to optimize microstructure and
density in metal additive manufacturing. /n - Utilize AI and ML
algorithms to extract insights from multi-modal sensor data,
improve real-time process monitoring, and drive automated control
systems. /n - Design, implement, and validate adaptive control
algorithms that leverage sensor feedback to dynamically adjust
processing parameters in real time. /n - Engage with a
multidisciplinary team focused on materials discovery, novel
fabrication techniques, multiscale modeling, processing insights,
advanced testing, and qualification science. /n - Present technical
findings to both internal and external audiences, effectively
communicating complex concepts to team members, task leads, and
project leadership. /n - Contribute to the design, fabrication, and
characterization of additively manufactured operational prototypes
that demonstrate intelligent process control. /n Qualifications You
meet our minimum qualifications for the job if you /n - Possess a
Ph.D. in Mechanical Engineering, Electrical Engineering, Materials
Science, Data Science, or a related field. /n - Have strong written
and oral communication skills, with the ability to engage wide -
ranging audiences and adapt to different communication styles. /n -
Are adaptable, enthusiastic about new challenges, and have a
passion for learning with a collaborative mindset open to sharing
and receiving feedback. /n - Have experience solving
multidisciplinary research challenges related to qualified hardware
and additive manufacturing. /n - Demonstrate a fundamental
understanding of additive manufacturing, including process defects,
microstructure evolution, and thermodynamic solidification. /n -
Have a demonstrated track record of authoring research proposals
and publishing high-impact journal papers. /n - Are willing and
able to work in a laboratory setting and travel for field testing,
sponsor meetings, conferences, and technical presentations. /n -
Are able to obtain a Secret-level security clearance to start with
APL and then upi will be required to obtain a final Top Secret
clearance. If selected, you will be subject to a government
security clearance investigation, and must meet the eligibility
requirements for access to classified information, including U.S.
citizenship. /n /n You will go above and beyond our minimum
qualifications if you /n - Have experience fielding additively
manufactured components. /n - Demonstrate the ability to fuse 2D
and 3D data, including in-situ and post-manufacturing data, into a
3D format for advanced processing and visualization. /n - Have
experience applying AI/ML techniques to complex datasets, including
deep learning models for defect detection, anomaly detection, and
predictive modeling of additive manufacturing processes. /n - Have
hands-on expertise in developing novel in-situ monitoring methods
for additive manufacturing, including custom sensor development to
improve signal-to-noise ratios and spatial registration. /n - Have
experience with digital twin technology and reinforcement learning
for real-time optimization of manufacturing parameters. /n - Have
experience working with voxel-based data and mapping physical
quantifications across multiple sensing platforms. /n - Possess
strong scientific programming skills using tools such as MATLAB or
Python, with experience in machine learning frameworks such as
TensorFlow, PyTorch, or Scikit-Learn. /n /n We are seeking a
postdoctoral fellow with proven expertise in in-situ sensing, AI,
and data fusion for additive (or other advanced) manufacturing
processes to drive innovation in real-time monitoring and
closed-loop control of advanced manufacturing systems. In this
role, you will collaborate with a multi-disciplinary team to
demonstrate multi-modal (e.g., optical, thermal, acoustic) in-situ
sensing and real-time adaptive control in advanced manufacturing
environments. At APL, we encourage our team members to generate and
lead their own research initiatives while also publishing their
findings in high-impact venues. We are a collaborative,
risk-taking, and innovative research team dedicated to solving
complex technical challenges with national impact. If you are
excited about the opportunity to shape the future of additive
manufacturing through sensing, AI, and adaptive control systems, we
would love to hear from you! About Us Why Work at APL? The Johns
Hopkins University Applied Physics Laboratory (APL) brings
world-class expertise to our nation's most critical defense,
security, space and science challenges. While we are dedicated to
solving complex challenges and pioneering new technologies, what
makes us truly outstanding is our culture. We offer a vibrant,
welcoming atmosphere where you can bring your authentic self to
work, continue to grow, and build strong connections with inspiring
teammates. At APL, we celebrate our differences of perspectives and
encourage creativity and bold, new ideas. Our employees enjoy
generous benefits, including a robust education assistance program,
unparalleled retirement contributions, and a healthy work/life
balance. APL's campus is located in the Baltimore-Washington metro
area. Learn more about our career opportunities at
http://www.jhuapl.edu/careers. All qualified applicants will
receive consideration for employment without regard to race, creed,
color, religion, sex, gender identity or expression, sexual
orientation, national origin, age, physical or mental disability,
genetic information, veteran status, occupation, marital or
familial status, political opinion, personal appearance, or any
other characteristic protected by applicable law. APL is committed
to providing reasonable accommodation to individuals of all
abilities, including those with disabilities. If you require a
reasonable accommodation to participate in any part of the hiring
process, please contact [email protected]. The referenced pay range
is based on JHU APL's good faith belief at the time of posting.
Actual compensation may vary based on factors such as geographic
location, work experience, market conditions, education/training
and skill level with consideration for internal parity. For
salaried employees scheduled to work less than 40 hours per week,
annual salary will be prorated based on the number of hours worked.
APL may offer bonuses or other forms of compensation per internal
policy and/or contractual designation. Additional compensation may
be provided in the form of a sign-on bonus, relocation benefits,
locality allowance or discretionary payments for exceptional
performance. APL provides eligible staff with a comprehensive
benefits package including retirement plans, paid time off,
medical, dental, vision, life insurance, short-term disability,
long-term disability, flexible spending accounts, education
assistance, and training and development. Applications are accepted
on a rolling basis. Minimum Rate $85,300 Annually Maximum Rate
$155,500 Annually
Keywords: Johns Hopkins Applied Physics Laboratory, Leesburg , 2026 PhD Graduate - Postdoctoral Researcher - In-Situ Sensing for Additive Manufacturing, Education / Teaching , Laurel, Virginia
