Applied Physicist; Quantum Systems; Level 1,- GTRI - CIPHER

Overview:

The Georgia Tech Research Institute (GTRI) is the nonprofit, applied research division of the Georgia Institute of Technology (Georgia Tech).Founded in 1934 as the Engineering Experiment Station, GTRI has grown to more than 2,900 employees, supporting eight laboratories in over 20 locations around the country and performing more than $940 million of problem-solving research annually for government and industry.

GTRI's renowned researchers combine science, engineering, economics, policy, and technical expertise to solve complex problems for the U.S. federal government, state, and industry.

Georgia Tech's mission is to develop leaders who advance technology and improve the human condition. The Institute has nine key values that are foundational to everything we do:

• 1. Students are our top priority.
• 2. We strive for excellence.
• 3. We thrive on diversity.
• 4. We celebrate collaboration.
• 5. We champion innovation.
• 6. We safeguard freedom of inquiry and expression.
• 7. We nurture the wellbeing of our community.
• 8. We act ethically.
• 9. We are responsible stewards.

Over the next decade, Georgia Tech will become an example of inclusive innovation, a leading technological research university of unmatched scale, relentlessly committed to serving the public good; breaking new ground in addressing the biggest local, national, and global challenges and opportunities of our time; making technology broadly accessible; and developing exceptional, principled leaders from all backgrounds ready to produce novel ideas and create solutions with real human impact.

The Quantum Systems (QS) Division of the Georgia Tech Research Institute's Cybersecurity, Information Protection, and Hardware Evaluation Research (CIPHER) Lab is seeking self-motivated individuals with experience in quantum science or photonics research. The division is composed of a large team of scientists and engineers from disciplines including physics, chemistry, electrical engineering, optical science, mechanical engineering, mathematics, and chemical engineering. QS employees perform fundamental research exploring next-generation technologies based on exotic physical phenomena, working to prove that devices based on these technologies can provide real-world solutions relevant to sponsors.
Our research portfolio includes programs in trapped-ion quantum computing, simulation, and sensing, vapor cell optically pumped magnetometers and Rydberg electrometers, atomic clocks, and the development of mass spectrometers. Support is available to develop projects outside of existing areas of research, such as photonic quantum computing, solid-state defects like NV-centers, quantum networking, and inertial sensors. QS researchers frequently contribute to projects in other GTRI labs and CIPHER divisions involving research in other topics including artificial intelligence and machine learning, communications, biophysics, security, and optics.
The candidate will be expected to work independently and effectively in a highly collaborative, multi-disciplinary team environment. Affiliated with the Georgia Institute of Technology and located on its main campus in Atlanta Georgia, GTRI offers a unique opportunity to conduct applied research in a university setting. Employees in this position are encouraged to publish academic literature and pursue collaborations with academic, government, and industry partners.

An applied physicist leverages knowledge and skills from the fields of physics, chemistry, material science, and mathematics to contribute to the research, analysis, design, and development of innovative systems, sensors, materials, and devices. They design and conduct experiments and/or simulations to ascertain physical properties and behaviors. Experiments conducted may involve the measurement, characterization, and testing of equipment and environmental phenomenology using specialized tools.

Fundamental physical principles are used to inform the design of systems and sensors, to evaluate their theoretical performance, and to develop algorithms. Areas of application may include: optical systems,…