Nudge
About Nudge
At Nudge, our mission is to develop the best technology for interfacing with the brain to improve people's lives. We're starting with an approach that we believe can help the most people the fastest, and also allow us to learn as much about the brain as possible: developing a non-invasive, ultrasound-based device that can stimulate and image the brain at high resolution and depth. This is a vertically integrated effort building cutting-edge hardware, software, and research capabilities to create products that can benefit millions — and eventually billions — of people.
We’ve brought together a team of the best, who believe hard things are worth doing. To succeed, we need to assemble world-class teams across everything we do. We hire people who are exceptional at their craft, do the real work, and execute relentlessly — people who expect the highest levels of both rigor and integrity from each other.
About the role
As an MRI RF Coil Engineer at Nudge, you will:
Engineer high channel-count RF receive coil arrays that are integrated with a transcranial ultrasound device for state-of-the-art 3T human MRI scanners
Design and build pre-amplifier and scanner interface circuits for RF coil arrays
Evaluate and minimize electromagnetic interactions between transcranial ultrasound stimulation devices and an MRI scanner
Design and build active RF probes for localizing ultrasound devices inside an MRI scanner
Develop precise, high throughput, reliable test systems
Own designs from concept through prototyping to deployment in clinical trials
Work closely with mechanical engineers, software engineers, ultrasound engineers, and clinical operators
About you We are looking for engineers of all levels, with a preference for at least 3 years of industry or relevant post-PhD experience. Regardless of your career level, you should have: Strong engineering / physics first principles
Exceptional proficiency in ECAD and electromagnetic simulation software
Degree in Electrical Engineering or similar engineering discipline
Strong RF engineering fundamentals
Strong analog and digital fundamentals
Demonstrated history of exceptional technical contribution
#J-18808-Ljbffr
Design and build pre-amplifier and scanner interface circuits for RF coil arrays
Evaluate and minimize electromagnetic interactions between transcranial ultrasound stimulation devices and an MRI scanner
Design and build active RF probes for localizing ultrasound devices inside an MRI scanner
Develop precise, high throughput, reliable test systems
Own designs from concept through prototyping to deployment in clinical trials
Work closely with mechanical engineers, software engineers, ultrasound engineers, and clinical operators
About you We are looking for engineers of all levels, with a preference for at least 3 years of industry or relevant post-PhD experience. Regardless of your career level, you should have: Strong engineering / physics first principles
Exceptional proficiency in ECAD and electromagnetic simulation software
Degree in Electrical Engineering or similar engineering discipline
Strong RF engineering fundamentals
Strong analog and digital fundamentals
Demonstrated history of exceptional technical contribution
#J-18808-Ljbffr