Large optical nonlinearity of indium tin oxide in its epsilon-near-zero region
Max Planck - University of Ottawa Centre for Extreme and Quantum Photonics · Tecnológico de Monterrey · +2 more institutions
Abstract
Nonlinear optical phenomena are crucial for a broad range of applications, such as microscopy, all-optical data processing, and quantum information. However, materials usually exhibit a weak optical nonlinearity even under intense coherent illumination. We report that indium tin oxide can acquire an ultrafast and large intensity-dependent refractive index in the region of the spectrum where the real part of its permittivity vanishes. We observe a change in the real part of the refractive index of 0.72 ± 0.025, corresponding to 170% of the linear refractive index. This change in refractive index is reversible with a recovery time of about 360 femtoseconds. Our results offer the possibility of designing material…
Citation impact
- FWCI
- 50.39
- Percentile
- 100%
- References
- 31
Authors
3- MZM. Zahirul Alam
Max Planck - University of Ottawa Centre for Extreme and Quantum Photonics
- IDIsrael De LeonCorresponding
Max Planck - University of Ottawa Centre for Extreme and Quantum Photonics, Tecnológico de Monterrey
- RWRobert W. Boyd
Rochester Institute of Technology, Max Planck - University of Ottawa Centre for Extreme and Quantum Photonics, University of Rochester
Topics & keywords
- Indium tin oxide
- Indium
- Zero (linguistics)
- Tin
- Oxide
- Materials science
- Nonlinear system
- Nonlinear optical