Photonics Research, Volume. 10, Issue 12, 2760(2022)
Near-infrared 3D imaging with upconversion detection
Fig. 1. (a) Experiment setup. Mode-locked laser pulses are separated into two arms by using WDM filters, with signal and pump wavelengths at 1545 and 1558 nm, respectively. The signal beam is incident on an obscured object. The backscattered signal photons are combined with the pump and are then upconverted in a nonlinear crystal to generate SF output centered at wavelength 775.5 nm. The time-resolved measurements can faithfully reconstruct the 3D object image captured by the EMCCD camera. (b) Picture of the object (a washer) attached on an aluminum block. (c) Picture of the obscured object, i.e., the washer obscured by the scattering media (SM). WDM, wavelength division multiplexer; EDFA, erbium-doped fiber amplifier; QWP, quarter-wave plate; HWP, half-wave plate; BS, beam splitter; FL, Fourier lens; PPLN crystal, magnesium-doped periodically poled lithium niobate crystal; EMCCD, electron multiplying silicon charge coupled device; ASE, amplified spontaneous emission.
Fig. 2. Field of view and spatial resolution of upconverted images using two different experimental situations. (a) Upconversion image of group 1 in USAF resolution test chart from the experiment setup depicted in Fig.
Fig. 3. (a1)–(a7) illustrate the present 3D imaging method. (a1) presents the intensity measurement for the input signal and pump at different arrival times, with the corresponding SF intensity shown in (a2). (a3)–(a5) show the spatial information at different arrival time I, II, and III, respectively. (a6) shows the reconstruction procedure of the 3D data set collection. At each pump delay, 2D image data are acquired by the camera in each frame, and the
Fig. 4. 3D reconstructed image through scattering media. Two SM samples are used (Table
Fig. 5. 3D image reconstruction through addition noises in the time-frequency and spatial domain. (a) Signal image before upconversion captured using the IR camera, which is reflected from the target object and mixed with time-frequency and spatial noises. (b) Upconverted SF image at a certain arrival time, which can be captured using the EMCCD. (c) Reconstructed 3D image.
Fig. 6. Reconstructed 3D image of washer for a series of exposure times: (a) 0.1 s, (b) 1 s, and (c) 2 s.
Fig. 7. 3D imaging measurement for the target object with diffusive surface. (a) Photo for target object. (b) Reconstructed image without scattering media. (c) Reconstructed image of the object with scattering media placed in front of it. (d) Post-processing image of (c).
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He Zhang, Santosh Kumar, Yong Meng Sua, Shenyu Zhu, Yu-Ping Huang, "Near-infrared 3D imaging with upconversion detection," Photonics Res. 10, 2760 (2022)
Category: Imaging Systems, Microscopy, and Displays
Received: Mar. 22, 2022
Accepted: Aug. 7, 2022
Published Online: Nov. 21, 2022
The Author Email: Yu-Ping Huang (yuping.huang@stevens.edu)