Measuring and correcting atmospheric turbulence through Quantum-Inspired Imaging (QI2)

Tara Crowe; Miguel Romer; Stephen Eikenberry; Rodrigo Amezcua-Correa; Daniel Cruz-Delgado; Stephanos Yerolatsitis; Miguel Bandres; Sergio Leon-Saval; Kerri Donaldson-Hanna; Robert Conwell; Matthew Cooper; Caleb Dobias; Genevieve Markees; Christina Moraitis; Aiden Akers; Vincent Miller; Sarah Thibaut

doi:10.1117/12.3020260

19 July 2024 Measuring and correcting atmospheric turbulence through Quantum-Inspired Imaging (QI2)

Tara Crowe, Miguel Romer, Stephen Eikenberry, Rodrigo Amezcua-Correa, Daniel Cruz-Delgado, Stephanos Yerolatsitis, Miguel Bandres, Sergio Leon-Saval, Kerri Donaldson-Hanna, Robert Conwell, Matthew Cooper, Caleb Dobias, Genevieve Markees, Christina Moraitis, Aiden Akers, Vincent Miller, Sarah Thibaut

Author Affiliations +

Proceedings Volume 13096, Ground-based and Airborne Instrumentation for Astronomy X; 130963O (2024) https://doi.org/10.1117/12.3020260
Event: SPIE Astronomical Telescopes + Instrumentation, 2024, Yokohama, Japan

Conference Poster

Abstract

Our team aims to demonstrate a photonic Quantum-Inspired Imager (QI2) which provides source reconstruction below the optical/NIR diffraction limit in the presence of atmospheric turbulence without the need for adaptive optics. Turbulent cells in the atmosphere reduce image resolution by causing fluctuations in the phase of propagating wavefronts. Rather than relying on conventional methods of wavefront sensing, our approach leverages the spectral diversity inherent in the factors which limit resolution, thus breaking the degeneracy between these aberrating processes. Though this concept has long been employed in astronomy to achieve diffraction limited imaging, our approach achieves this necessary spectral diversity with a passive photonic lantern mode multiplexer that converts a multimode wavefront input into an array of spatially distinct single-mode outputs, from which we can deduce the atmospheric phase variations and reconstruct the source function. We present detailed simulations and laboratory tests demonstrating the QI2 approach in measuring atmospheric turbulence and correcting phase distortions.

Citation Download Citation

Tara Crowe, Miguel Romer, Stephen Eikenberry, Rodrigo Amezcua-Correa, Daniel Cruz-Delgado, Stephanos Yerolatsitis, Miguel Bandres, Sergio Leon-Saval, Kerri Donaldson-Hanna, Robert Conwell, Matthew Cooper, Caleb Dobias, Genevieve Markees, Christina Moraitis, Aiden Akers, Vincent Miller, and Sarah Thibaut "Measuring and correcting atmospheric turbulence through Quantum-Inspired Imaging (QI2)", Proc. SPIE 13096, Ground-based and Airborne Instrumentation for Astronomy X, 130963O (19 July 2024); https://doi.org/10.1117/12.3020260

ACCESS THE FULL ARTICLE

INSTITUTIONAL
Select your institution to access the SPIE Digital Library.

SELECT YOUR INSTITUTION

PERSONAL
Sign in with your SPIE account to access your personal subscriptions or to use specific features such as save to my library, sign up for alerts, save searches, etc.

PERSONAL SIGN IN

No SPIE Account? Create one

;

PURCHASE THIS CONTENT

SUBSCRIBE TO DIGITAL LIBRARY

50 downloads per 1-year subscription

Members: $195

Non-members: $335 ADD TO CART

25 downloads per 1 - year subscription

Members: $145

Non-members: $250 ADD TO CART

PURCHASE SINGLE ARTICLE