Taewon Park
KAIST
13 Papers
6 Citations
Taewon Park is an academic researcher from KAIST. The author has contributed to research in topics: Photonics & Computer science. The author has co-authored 2 publications.
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Papers
Integrated quantum optical phase sensor in thin film lithium niobate
Hubert Stokowski,Timothy P. McKenna,Taewon Park,Alexander Hwang,Devin J. Dean,Oguz Tolga Celik,Vahid Ansari,Martin M. Fejer,Amir H. Safavi-Naeini +8 more
TL;DR: In this paper , a photonic integrated circuit in thin-film lithium niobate is presented to increase the signal-to-noise ratio of phase measurement in optical phase sensors.
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Single-mode squeezed-light generation and tomography with an integrated optical parametric oscillator
Taewon Park,Hubert Stokowski,Vahid Ansari,Samuel Gyger,Kevin Multani,Oguz Tolga Celik,Alexander Hwang,Devin J. Dean,Felix M. Mayor,Timothy P. McKenna,M. Fejer,Amir H. Safavi-Naeini +11 more
TL;DR: Single-mode squeezed-light generation and tomography with an integrated optical parametric oscillator generates squeezed light on a single chip, reducing size and complexity.
Integrated Quantum Optical Phase Sensor
Hubert Stokowski,Timothy P. McKenna,Taewon Park,Alexander Hwang,Devin J. Dean,Oguz Tolga Celik,Vahid Ansari,Martin M. Fejer,Amir H. Safavi-Naeini +8 more
- 19 Dec 2022
TL;DR: In this article , the authors align the LO phase with maximum squeezing by DC tuning and measure the RF power spectrum through a BHD, and observe about (4 ± 1)% improvement of the SNR compared to a shot-noise limited measurement.
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Cascaded optical resonator-based programmable photonic integrated circuits
TL;DR: In this paper, the authors propose and study optical circuit models consisting of cascaded optical resonators that enable the independent operation of multiple wavelength channels in a more compact footprint than the conventional MZIs.
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Power monitoring in a feedforward photonic network using two output detectors
Sunil Pai,Carson G. Valdez,Taewon Park,Maziyar Milanizadeh,Francesco Morichetti,Andrea Melloni,Shanhui Fan,Olav Solgaard,David A. B. Miller +8 more
TL;DR: In this paper , a new architecture capable of power monitoring any waveguide segment in a programmable feedforward photonic circuit is proposed, which can solve complex tasks using photonics-accelerated matrix multiplication on a chip, and which may require calibration and training mechanisms.
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