| # |
Title |
Publication |
Author(s) |
Type |
WoS Index (SCI, SSCI, AHCI, EI) |
Year |
| 1 | Polarization diffractive networks: performing multiple linear transformations using a polarization-encoded diffractive optical network | SPIE Photonics West | J. Li, Y.C. Hung, O. Külçe, D. Mengu, A. Ozcan | Other | - | March
2023 |
| 2 | All-optical computation of an arbitrary linear transformation using diffractive networks | Optica (OSA) Imaging and Applied Optics Congress | O. Külçe, D. Mengu, Y. Rivenson, A. Ozcan | Other | - | July
2022 |
| 3 | Polarization multiplexed diffractive computing: alloptical implementation of a group of linear transformations through a polarization-encoded diffractive network | Light: Science & Applications | J. Li, Y.C. Hung, O. Külçe, D. Mengu, A. Ozcan | Journal paper | SCI | May
2022 |
| 4 | At the intersection of optics and deep learning: statistical inference, computing, and inverse design | Advances in Optics and Photonics | D. Mengu, M.S.S. Rahman, Y. Luo, J. Li, O. Külçe, A. Ozcan | Journal paper | SCI | May
2022 |
| 5 | All-optical implementations of arbitrary linear transformations using diffractive networks | SPIE Photonics West | O. Külçe, D. Mengu, Y. Rivenson, A. Ozcan | Other | - | March
2022 |
| 6 | Information Processing Capacity of Diffractive Optical Processors | Optica (OSA) Frontiers in Optics + Laser Science | O. Külçe, D. Mengu, Y. Rivenson, A. Ozcan | Other | - | November
2021 |
| 7 | All-optical synthesis of an arbitrary linear transformation using diffractive surfaces | Light: Science & Applications | O. Külçe, D. Mengu, Y. Rivenson, A. Ozcan | Journal paper | SCI | September
2021 |
| 8 | All-optical information processing capacity of diffractive networks | SPIE Optics and Photonics | O. Külçe, D. Mengu, Y. Rivenson, A. Ozcan | Other | - | August
2021 |
| 9 | Information processing capacity of diffractive surfaces | SPIE Photonics West | O. Külçe, D. Mengu, Y. Rivenson, A. Ozcan | Other | - | March
2021 |
| 10 | Generation of a polarized optical field from a given scalar field for wideviewing- angle holographic displays | Optics and Lasers in Engineering | O. Külçe, L. Onural | Journal paper | SCI | February
2021 |
| 11 | All-optical information processing capacity of diffractive surfaces | Light: Science & Applications | O. Külçe, D. Mengu, Y. Rivenson, A. Ozcan | Journal paper | SCI | January
2021 |
| 12 | Power spectrum equalized scalar representation of wide-angle optical field propagation | Journal of Mathematical Imaging and Vision | O. Külçe, L. Onural | Journal paper | SCI | April
2018 |
| 13 | Local error analysis arising from the conventional scalar approximation in wide optical fields | IEEE Signal Processing and Communications Applications Conference | O. Külçe, L. Onural | Conference paper | - | July
2017 |
| 14 | Phase retrieval from electric field intensity for wide angle optical fields | Optica (OSA) Imaging and Applied Optics Congress | O. Külçe, L. Onural | Conference paper | - | July
2017 |
| 15 | Evaluation of the validity of the scalar approximation in optical wave propagation using a systems approach and an accurate digital electromagnetic model | Journal of Modern Optics | O. Külçe, L. Onural, H.M. Ozaktas | Journal paper | SCI | July
2016 |
| 16 | Analysis of the longitudinal component of the electric field generated by flat and pixelated liquid crystal displays | IEEE 3DTV-Conference | O. Külçe, L. Onural | Conference paper | - | July
2016 |
