Small Signals’ Study of Thermal Induced Current in Nanoscale SOI Sensor

Mandelbaum, Yaakov; Gadasi, Ilan; Chelly, Avraham; Zalevsky, Zeev; Karsenty, Avi

doi:10.1155/2017/1961734

Cited by 3 publications

(1 citation statement)

References 25 publications

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“…The uniqueness of this coupled device is that it acts as a polarization modulator as well as an intensity modulator. This innovative device is the product of a continuous process keeping the same architecture of a V-groove geometry, and changing the triggering modulation starting from illumination activation [7][8][9][10][11], continuing to thermal activation [12,13], recently progressing with polarization activation [14], and now embedded in a series of adjacent devices with selective polarization. This is the reason why, in parallel to its evolution, this special modulator changed its name from SOIPAM (Silicon-On-Insulator Photo-Activated Modulator), to SOITAM (Silicon-On-Insulator Thermo-Activated Modulator), SOIP2AM (Silicon-On-Insulator Photo-Polarized-Activated Modulator), and N-SOIP2AM for multi-elements (N) integration.…”

Section: Ultra-fast Electro-optic Polarized Switchmentioning

confidence: 99%

Optical Polarization Sensitive Ultra-Fast Switching and Photo-Electrical Device

2019

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Ultra-fast electrical switches activated with an optical-polarized light trigger, also called photo-polarized activated electrical switches, are presented. A set of new transistor circuits is switched by light from above, illuminating deep V-grooves, whose angle is sensitive to the polarization of the incident. Thus, this application may serve for encryption/decryption devices since the strongest electrical responsivity is only obtained for very specific spatial polarization directions of the illumination beam. When this V-groove is sufficiently narrow, the device mainly responds to one polarization and not to the other. In such a way, electrons are generated only for one specific polarization. While the nature of the data remains electronic, the modulation control is optic, creating a photo-induced current depending on the polarization direction. This coupled device acts as a polarization modulator as well as an intensity modulator. The article focuses on the integration of several devices in different configurations of circuitry: dual, triple, and multi-element. Case studies of several adjacent devices are presented with varying critical variables, such as the V-groove aperture dimensions. Analytical models and complementary numerical analyses are presented for the future smooth integration into Complementary Metal-Oxide-Semiconductor (CMOS) technology.

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Section: Ultra-fast Electro-optic Polarized Switchmentioning

confidence: 99%

Optical Polarization Sensitive Ultra-Fast Switching and Photo-Electrical Device

2019

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Picosecond pulsed laser illumination: an ultimate solution for photonic versus thermal processes’ contest in SOI photo-activated modulator

Glukhov

Zalevsky

Karsenty

2022

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The functionality of a nanoscale silicon-based optoelectronic modulator is deeply analyzed while it appears that two competing processes, thermal and photonic, are occurring at the same time, and are preventing the optimization of the electro-optics coupling. While an incident illumination-beam first process is translated into photons, generating pairs of electrons–holes, a second process of thermal generation, creating phonons enables a loss of energy. Complementary studies, combining strong analytical models and numerical simulations, enabled to better understand this competition between photonic and thermal activities, in order to optimize the modulator. Moreover, in order to prevent unnecessary heating effects and to present a proposed solution, a picosecond pulsed laser is suggested and demonstrated as the ultimate solution so no energy will be wasted in heat, and still the photonic energy will be fully used. First ever-analytical solution to the heating produced due to the laser illumination applied on a nano-photonic device, while the illumination is produced in a periodic time changing function, e.g. a pulsed illumination, is presented. The present case study and proposed adapted solution can serve as a basis of generic approach in sensors’ activation towards optimized photonics absorption.

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V-groove-shaped silicon-on-insulator photopolarized activated modulator (SOIP²AM): a polarizing transistor

et al. 2019

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In this paper, we present the design of a silicon optoelectronic device capable of speeding up processing capabilities. The data in this device are electronic, while the modulation control is optical. It can be used as a building block for the development of optical data processing by silicon-based processors based on typical microelectronics manufacturing processes. A V-groove-based structure fabricated as part of the device allows obtaining enhanced sensitivity to the polarization of the photonic control signal and thus allows obtaining a polarization-sensitive modulator.

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Small Signals’ Study of Thermal Induced Current in Nanoscale SOI Sensor

Cited by 3 publications

References 25 publications

Optical Polarization Sensitive Ultra-Fast Switching and Photo-Electrical Device

Optical Polarization Sensitive Ultra-Fast Switching and Photo-Electrical Device

Picosecond pulsed laser illumination: an ultimate solution for photonic versus thermal processes’ contest in SOI photo-activated modulator

V-groove-shaped silicon-on-insulator photopolarized activated modulator (SOIP²AM): a polarizing transistor

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Small Signals’ Study of Thermal Induced Current in Nanoscale SOI Sensor

Cited by 3 publications

References 25 publications

Optical Polarization Sensitive Ultra-Fast Switching and Photo-Electrical Device

Optical Polarization Sensitive Ultra-Fast Switching and Photo-Electrical Device

Picosecond pulsed laser illumination: an ultimate solution for photonic versus thermal processes’ contest in SOI photo-activated modulator

V-groove-shaped silicon-on-insulator photopolarized activated modulator (SOIP2AM): a polarizing transistor

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V-groove-shaped silicon-on-insulator photopolarized activated modulator (SOIP²AM): a polarizing transistor