In this paper, a MIR silicon modulator operating at 2 μm wavelength is experimentally demonstrated. The modulator shows 9.7 GHz 3-dB electro-optic bandwidth at Vbias= -3V. We also present optical modulation at 12.5 Gb/s.</p
The 2 µm communication windows has established itself amongst other solutions to address the capacit...
Mid-infrared spectroscopy is essential for identifying molecular species, while related electro-opti...
Heterogeneous integration techniques, such as direct bonding, have enabled solutions to many problem...
We report here a simulation results on the design of an electrooptic modulator at a wavelength of 2μ...
The mid-infrared wavelength region contains absorption fingerprints of numerous molecules and theref...
Silicon photonics has traditionally focused on near infrared wavelengths, with tremendous progress s...
We report mid-infrared Ge-on-Si waveguide based PIN diode modulators operating at wavelengths of 3.8...
The 2 μm wavelength band has become a promising candidate to be the next communication window. We de...
The 2 μm wavelength band has become a promising candidate to be the next communication window. We de...
The mid-infrared wavelength region (3-20 µm) offers several application areas. In this paper we pres...
We demonstrate high-speed silicon modulators optimized for operating at the wavelength of 2 μm. The ...
High-speed and low-power silicon optical modulators are key in realising low cost photonic circuits ...
The 2 µm communication windows has established itself amongst other solutions to address the capacit...
Mid-infrared spectroscopy is essential for identifying molecular species, while related electro-opti...
Heterogeneous integration techniques, such as direct bonding, have enabled solutions to many problem...
We report here a simulation results on the design of an electrooptic modulator at a wavelength of 2μ...
The mid-infrared wavelength region contains absorption fingerprints of numerous molecules and theref...
Silicon photonics has traditionally focused on near infrared wavelengths, with tremendous progress s...
We report mid-infrared Ge-on-Si waveguide based PIN diode modulators operating at wavelengths of 3.8...
The 2 μm wavelength band has become a promising candidate to be the next communication window. We de...
The 2 μm wavelength band has become a promising candidate to be the next communication window. We de...
The mid-infrared wavelength region (3-20 µm) offers several application areas. In this paper we pres...
We demonstrate high-speed silicon modulators optimized for operating at the wavelength of 2 μm. The ...
High-speed and low-power silicon optical modulators are key in realising low cost photonic circuits ...
The 2 µm communication windows has established itself amongst other solutions to address the capacit...
Mid-infrared spectroscopy is essential for identifying molecular species, while related electro-opti...
Heterogeneous integration techniques, such as direct bonding, have enabled solutions to many problem...
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