[18] Muda, A. M. I., & Teğin, U. (2024). Optical computing with supercontinuum generation in photonic crystal fibers. arXiv preprint arXiv:2403.07667.
[17] Çarpınlıoğlu, B., Daniş, B. S., & Teğin, U. (2024). Genetically programmable optical random neural networks. arXiv preprint arXiv:2403.12490.
[16] Kesgin, B. U., & Teğin, U. (2023). Machine Learning with Chaotic Strange Attractors. arXiv preprint arXiv:2309.13361.
[15] Oguz, I., Hsieh, J. L., Dinc, N. U., Teğin, U., Yildirim, M., Gigli, C., Moser, C. & Psaltis, D. (2023). Programming Nonlinear Propagation for Efficient Optical Learning Machines. Advanced Photonics, 6(1), 016002-016002.
[14] Teğin, U., Wang, P., & Wang, L. V. (2022). Real-time observation of optical rogue waves in spatiotemporally mode-locked fiber lasers. Communications Physics, 6(1), 60.
[13] Rahmani, B., Oguz, I., Teğin, U., Hsieh, J. L., Psaltis, D., & Moser, C. (2022). Learning to image and compute with multimode optical fibers. Nanophotonics, 11(6), 1071-1082.
[12] Teğin, U., Yıldırım, M., Oğuz, İ., Moser, C., & Psaltis, D. (2021). Scalable optical learning operator. Nature Computational Science, 1(8), 542-549.
[11] Teğin, U., Dinç, N. U., Moser, C., & Psaltis, D. (2021). Reusability report: Predicting spatiotemporal nonlinear dynamics in multimode fibre optics with a recurrent neural network. Nature Machine Intelligence, 1-5.
[10] Teğin, U., Rahmani, B., Kakkava, E., Psaltis, D., & Moser, C. (2020). Single- mode output by controlling the spatiotemporal nonlinearities in mode-locked femtosecond multimode fiber lasers. Advanced Photonics, 2(5), 056005.
[9] Teğin, U., Rahmani, B., Kakkava, E., Psaltis, D., & Moser, C. (2020). All-fiber spatiotemporally mode-locked laser with multimode fiber-based filtering. Optics Express, 28(16), 23433-23438.
[8] Rahmani, B., Loterie, D., Kakkava, E., Borhani, N., Teğin, U., Psaltis, D., & Moser, C. (2020). Actor neural networks for the robust control of partially measured nonlinear systems showcased for image propagation through diffuse media. Nature Machine Intelligence, 2(7), 403-410.
[7] Teğin, U., Rahmani, B., Kakkava, E., Borhani, N., Moser, C., & Psaltis, D. (2020). Controlling spatiotemporal nonlinearities in multimode fibers with deep neural networks. APL Photonics, 5(3), 030804.
[6] Kakkava, E., Borhani, N., Rahmani, B., Teğin, U., Moser, C., & Psaltis, D. (2020). Deep learning-based image classification through a multimode fiber in the presence of wavelength drift. Applied Sciences, 10(11), 3816.
[5] Teğin, U., Kakkava, E., Rahmani, B., Psaltis, D., & Moser, C. (2019). Spatiotemporal self-similar fiber laser . Optica, 6(11), 1412-1415.
[4] Kakkava, E., Rahmani, B., Borhani, N., Teğin, U., Loterie, D., Konstantinou, G., Moser, C. & Psaltis, D. (2019). Imaging through multimode fibers using deep learning: The effects of intensity versus holographic recording of the speckle pattern. Optical Fiber Technology, 52, 101985.
[3] Teğin, U., & Ortaç, B. (2018). Cascaded Raman scattering based high power octave-spanning supercontinuum generation in graded-index multimode fibers. Scientific Reports, 8(1), 1-7.
[2] Teğin, U., & Ortaç, B. (2018). All-fiber all-normal-dispersion femtosecond laser with a nonlinear multimodal interference-based saturable absorber. Optics Letters, 43(7), 1611-1614.
[1] Teğin, U., & Ortaç, B. (2017). Spatiotemporal instability of femtosecond pulses in graded-index multimode fibers. IEEE Photonics Technology Letters, 29(24), 2195-2198.
- Invited talk, "Nonlinear spatiotemporal optical computing”, SPIE Optics + Photonics, Emerging Topics in Artificial Intelligence (ETAI), 08/2023, San Diego USA.
- Invited talk, "Optical computing in nonlinear multimode fibers”, OSA Advanced Photonics Congress, 07/2022, Maastricht, Netherlands.
- Invited talk, “Scalable nonlinear optical computing with multimode fibers”, Photonics West SPIE, 02/2022, San Francisco, USA.
- “Optical computing with multimode fiber nonlinearities“, SPIE Optics + Photonics, Emerging Topics in Artificial Intelligence, 08/2021, San Diego USA.
- Invited talk, “Optical computing with multimode fiber nonlinearities”, IEEE Photonics Society Summer Topicals Meeting, 07/2021, Cabo San Lucas, Mexico.
- “Optical computing with spatiotemporal fiber nonlinearities”, CLEO EU, 06/2021, Munich, Germany.
- “Spatial self-beam cleaning in spatiotemporally mode-locked fiber lasers”, CLEO EU, 06/2021, Munich, Germany.
- “Machine learning with multimode fibers”, CLEO US, 05/2021, San Jose, USA.
- Invited talk, "Spectral and spatial shaping of spatiotemporal nonlinearities in multimode fibers", IEEE Photonics Society Summer Topicals Meeting, 07/2020, Cabo San Lucas, Mexico.
- Invited talk, "Dispersion-managed soliton multimode fiber laser", CLEO US, 05/2020, San Jose, USA.
- "Self-similar spatiotemporally mode-locked fiber laser”, SPIE Photonics West, 02/2020 , San Francisco, USA.
- "Learning spatiotemporal nonlinearities in graded-index multimode fibers with deep neural networks", CLEO EU, 06/2019, Munich, Germany.
- "All-fiber all-normal-dispersion femtosecond laser with nonlinear multimodal interference-based saturable absorber", CLEO EU, 06/2019, Munich, Germany.
- "High power supercontinuum generation in graded-index multimode fibers", CLEO EU, 06/2019, Munich, Germany.
- "Deep neural networks for controlling spatiotemporal nonlinearities in graded- index multimode fibers", Photorefractive Photonics and beyond, 06/2019, Gerardmer, France.
- "Generation of dissipative solitons in normal-dispersion Raman fiber laser", CLEO Pacific Rim, 08/2015, Busan, Korea.
- "Dissipative solitons generated from a mode-locked Raman laser", CLEO EU, 06/2015, Munich, Germany.
- "Seeded amplification of Stokes wave in an ultrafast fiber amplifiers", EPS-QEOD EUROPHOTON, 08/2014, Neuchatel, Switzerland.