© OSA 2018. This article describes the processing, characterization, and transfer of 25 μm-thick by 480 μm-long iron-garnet Faraday rotator films onto semiconductor substrates. Insertion losses below 0.1dB and extinction ratios of -30 dB are achieved. No magnets are needed
We investigate the possibility of using silicon waveguides as Faraday rotators for optical isolators...
© 2019 Optical Society of America. Integrated optical isolators have been a longstanding challenge f...
On-chip optical isolators constitute an essential building block for photonic integrated circuits. M...
© 2017 Author(s). This report describes the fabrication, characterization, and transfer of ultra-com...
Magnetless thin film optical isolators have been demonstrated that feature less than 1 dB insertion ...
© 2018 The Author (s). The fabrication and operation of on-chip-integrated high performing optical i...
A passive magnetless integrated optic Faraday isolator has been demonstrated that features ∼3 dB tot...
A passive magnetless integrated optic Faraday isolator has been demonstrated that features ~3 dB tot...
The miniaturization of Faraday rotator elements is of interest in optical telecommunications for the...
The objective of this study is to theoretically devise an on-chip optical isolator which is monolith...
Faraday rotators in optical isolators, typically composed of iron garnets, are photonic analogues of...
Achieving monolithic integration of nonreciprocal photonic devices on semiconductor substrates has b...
Most on-chip optical isolators utilize nonreciprocal magneto-optic (MO) garnet-materials that requir...
Magneto-optical isolators are key components in photonic systems. Despite the progress of silicon-in...
In pursuit of beyond CMOS computing, this thesis aims to provide material solutions for both photoni...
We investigate the possibility of using silicon waveguides as Faraday rotators for optical isolators...
© 2019 Optical Society of America. Integrated optical isolators have been a longstanding challenge f...
On-chip optical isolators constitute an essential building block for photonic integrated circuits. M...
© 2017 Author(s). This report describes the fabrication, characterization, and transfer of ultra-com...
Magnetless thin film optical isolators have been demonstrated that feature less than 1 dB insertion ...
© 2018 The Author (s). The fabrication and operation of on-chip-integrated high performing optical i...
A passive magnetless integrated optic Faraday isolator has been demonstrated that features ∼3 dB tot...
A passive magnetless integrated optic Faraday isolator has been demonstrated that features ~3 dB tot...
The miniaturization of Faraday rotator elements is of interest in optical telecommunications for the...
The objective of this study is to theoretically devise an on-chip optical isolator which is monolith...
Faraday rotators in optical isolators, typically composed of iron garnets, are photonic analogues of...
Achieving monolithic integration of nonreciprocal photonic devices on semiconductor substrates has b...
Most on-chip optical isolators utilize nonreciprocal magneto-optic (MO) garnet-materials that requir...
Magneto-optical isolators are key components in photonic systems. Despite the progress of silicon-in...
In pursuit of beyond CMOS computing, this thesis aims to provide material solutions for both photoni...
We investigate the possibility of using silicon waveguides as Faraday rotators for optical isolators...
© 2019 Optical Society of America. Integrated optical isolators have been a longstanding challenge f...
On-chip optical isolators constitute an essential building block for photonic integrated circuits. M...
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