WASHINGTON--(BUSINESS WIRE)--Using pseudo-random speckle patterns is an efficient way to image targets, but most approaches require bulky, expensive, complex and slow machinery. To apply this technique to biomedical imaging, such as ultra-thin endoscopy or in vivo neural imaging, a smaller device that can generate random speckles is needed.
A team of researchers led by Takuo Tanemura at the University of Tokyo, Japan, has demonstrated the use of a multimode fiber (MMF) in combination with an integrated optical phased array (OPA) chip for single-pixel imaging in potential biomedical applications.
Taichiro Fukui, a PhD student in the group, will present their imaging technique at the Optical Fiber Communication Conference and Exhibition (OFC), to be held 8-12 March 2020 at the San Diego Convention Center, California, U.S.A.
According to Fukui, previous research has shown that illuminating a target using random speckles rather than a focused spot enhances the spatial resolution of an imaging process. “This is because unlike a focused spot, the random speckle illumination consists of interference patterns that contain higher spatial frequency elements,” he said.
By integrating an MMF output with an OPA chip, which splits the input light into a number of independent phase shifters, the group was able to generate different random speckle patterns to illuminate the target.
“Although we have previously demonstrated random-speckle-based imaging by just using an OPA without MMF, we could not resolve a large number of points due to the limited number of phase shifters on the OPA,” said Fukui. “Surprisingly, in this work, we discovered that by transmitting through an MMF, the number of resolvable points can be increased drastically.”
With a simple matrix multiplication operation of the illumination pattern matrix and the transmitted optical power matrix, the image of the target can be quickly reconstructed.
In testing this method, the team was able to image 490 resolvable points using 128 phase shifters and 600 illumination patterns. This result is comparable to other MMF methods, but with a smaller, cheaper and faster technique.
“The most important finding in this work is that the resolvable number is essentially determined by the spatial capacity of the MMF and no longer by the OPA, as in conventional methods of using an OPA only,” Fukui said. “We have confirmed that the number of resolvable points can even exceed 1,000 if we have stronger intermodal coupling inside the MMF. Our work is just the first step to demonstrate such possibilities.”
Pending several improvements – such as reducing the on-chip losses by integrating optical amplifiers on the OPA chip – the technique can be used to develop small, high-speed, low-cost and high-resolution imaging technologies.
“We believe that our scheme can be employed not only in endoscopic applications, but also in various optical sensing and imaging scenes, such as flow cytometry and optical coherence tomography,” Fukui said.
These results and additional research will be presented onsite at OFC 2020.
Hear from the Research Team
“'Single-pixel imaging through multimode fiber using silicon optical phased array chip,” T. Fukui, et al., Monday, 9 March 2020, Room 2, 11:00 a.m. PST
Register before 10 February 2020 and save on a full technical conference pass. Credentialed media and analysts who wish to cover OFC 2020 can find registration and other essential information in the OFC media room.
The Optical Fiber Communication Conference and Exhibition (OFC) is the largest global conference and exhibition for optical communications and networking professionals. For more than 40 years, OFC has drawn attendees from all corners of the globe to meet and greet, teach and learn, make connections and move business forward. OFC includes dynamic business programming, an exhibition of more than 700 companies, and high impact peer-reviewed research that, combined, showcase the trends and pulse of the entire optical networking and communications industry. OFC is managed by The Optical Society (OSA) and co-sponsored by OSA, the IEEE Communications Society (IEEE/ComSoc), and the IEEE Photonics Society. OFC 2020 will be held from 8 - 12 March 2020 at the San Diego Convention Center, California, USA. Follow @OFCConference, learn more at OFC Community LinkedIn, and watch highlights on OFC YouTube.
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