Mario J. Paniccia

What is he best known for?

The fields of study he is best known for:

• Laser
• Optics
• Optical fiber

His main research concerns Optoelectronics, Optics, Silicon, Hybrid silicon laser and Silicon photonics. His research integrates issues of Laser and Optical amplifier in his study of Optoelectronics. Biasing is closely connected to Diode in his research, which is encompassed under the umbrella topic of Optics.

His work in Silicon addresses issues such as Waveguide, which are connected to fields such as Wafer bonding. The concepts of his Silicon photonics study are interwoven with issues in Nanotechnology and Phase modulation. His work carried out in the field of Silicon on insulator brings together such families of science as Wavelength-division multiplexing, Bandwidth, Integrated circuit and Electro-optic modulator, Optical modulator.

His most cited work include:

• A high-speed silicon optical modulator based on a metal–oxide–semiconductor capacitor (1358 citations)
• A continuous-wave Raman silicon laser (1034 citations)
• Electrically pumped hybrid AlGaInAs-silicon evanescent laser (1017 citations)

What are the main themes of his work throughout his whole career to date?

His primary scientific interests are in Optoelectronics, Optics, Silicon, Silicon photonics and Hybrid silicon laser. His studies deal with areas such as Laser and Optical amplifier as well as Optoelectronics. His study looks at the relationship between Optics and fields such as Optical modulator, as well as how they intersect with chemical problems.

As part of the same scientific family, Mario J. Paniccia usually focuses on Silicon, concentrating on Avalanche photodiode and intersecting with Gain–bandwidth product and Dark current. In his work, Bandwidth is strongly intertwined with Silicon on insulator, which is a subfield of Silicon photonics. Hybrid silicon laser and Silicon bandgap temperature sensor are two areas of study in which Mario J. Paniccia engages in interdisciplinary research.

He most often published in these fields:

• Optoelectronics (69.33%)
• Optics (59.56%)
• Silicon (43.11%)

What were the highlights of his more recent work (between 2008-2021)?

• Optoelectronics (69.33%)
• Silicon photonics (39.56%)
• Silicon (43.11%)

In recent papers he was focusing on the following fields of study:

Mario J. Paniccia mainly focuses on Optoelectronics, Silicon photonics, Silicon, Optics and Photodetector. His work deals with themes such as Avalanche photodiode and Laser, Laser linewidth, which intersect with Optoelectronics. His Silicon photonics study incorporates themes from Silicon on insulator, Nanotechnology, Hybrid silicon laser and Wavelength-division multiplexing.

His Silicon study combines topics in areas such as Current, Absorption, Integrated optics, Raman laser and Lasing threshold. His Photodetector research incorporates themes from Optical receivers, Detector and Integrated circuit. Mario J. Paniccia combines subjects such as Intermodulation, APDS, Responsivity and Optical modulator with his study of Photonics.

Between 2008 and 2021, his most popular works were:

• Monolithic germanium/silicon avalanche photodiodes with 340 GHz gain-bandwidth product (414 citations)
• Wavelength Division Multiplexing Based Photonic Integrated Circuits on Silicon-on-Insulator Platform (109 citations)
• Demonstration of a High Speed 4-Channel Integrated Silicon Photonics WDM Link with Hybrid Silicon Lasers (87 citations)

In his most recent research, the most cited papers focused on:

• Laser
• Optics
• Optical fiber

Mario J. Paniccia focuses on Silicon photonics, Optoelectronics, Silicon, Avalanche photodiode and Photonics. His Silicon photonics research is multidisciplinary, incorporating perspectives in Nanotechnology and Wavelength-division multiplexing. His research on Optoelectronics frequently connects to adjacent areas such as Optics.

His biological study spans a wide range of topics, including Frequency response, Optical modulator and Intermodulation. His research investigates the connection between Silicon and topics such as Laser that intersect with problems in Microelectronics. The Photonics study combines topics in areas such as Radio frequency, Radio over fiber and Electronics.

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