Optoelectronic Sensors with Industrial Applications


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Lectures - Year 2020

Amphiteater 368/Lab Room 328, Office: B6 Adress: Baritiu 26-28, Tehnical University, Cluj.

Titles Presentation References
C1- "Why SOAI?" - Introduction to photonics and optical components and economic impact

C1 lecture pdf

Photonics Industry report 2013
C2- "Where?" - Photonics in Europe: Projects and Industrial perspective

C2 lecture pdf

Photonics Roadmap 2020
C3- "How?" First step- Software for optical components and sensors design

C3 lecture pdf

SPECTARIS Guide
C4-Sensors classification: OFS (optic fiber sensors) and OS (waveguide optic sensors)
Optical fiber sensors (OFS1): from basics to applications (part 1)

C4 lecture pdf

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C5-Optical fiber sensors (OFS2): from basics to applications (part 2)

C5 lecture pdf

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C6-Optical sensors classification.
Optoelectronic sensors: simple applications examples

C6 lecture pdf

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C7-The Optical Sensor Construction Kit (OS1): Emitters

C7 lecture pdf

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C8-The Optical Sensor Construction Kit (OS2): Photodetectors

C8 lecture pdf

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C9-The Optical Sensor Construction Kit (OS3): Optical Elements

C9 lecture pdf

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C10-Optical Sensor Concepts (OS4): application examples

C10 lecture pdf

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C11-Wearable sensors: optical approach

C11 lecture pdf

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C12-Lab-on-a-chip: plasmonic sensors

C12 lecture pdf

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C13-Lab-on-a-chip: microrings

C13 lecture pdf

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C14-Reviw of the presented concepts

Review-diagram pdf

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Lab activities (Year 2020)

Lab Room 328, Office: B6 Adress: Baritiu 26-28, Tehnical University, Cluj.

Each individual group (3 students) will work in parallel at different activity

as follows: L1-Group1-A1; Group2-A2 s.a.
Titles Presentation References
Safety rules
A1 - Spectrometry applications - spectrometer VIS:
liquids fingerprints and optical sources characterisation

A1 lab description pdf

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A2 - Spectrometry applications - spectrometer IR:
optical sources characterisation

A2 lab description pdf

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A3 - Optical Powermeter applications:
optical sensor characterisation

A3 lab description pdf

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A4 - Optical components and Arduino platform:
setup with light sensor, polarimeter, 8x8 LED matrix, IR sensor

A4 lab description pdf

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A5-Holography setup and 3D LED holography

A5 lab description pdf

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A6-Depth sensors"(Kinect and Tango project)

A6 lab description pdf

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A7-LIDAR: 1R Garmin application example

A7 lab description pdf

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A8-OTDR and application in sensing:
bending sensor and power budget method

A8 lab description pdf

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A9-Special optical fibers:
sensing with fluorescent fibers

A9 lab description pdf

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A10-IR camera applications or alternative for Virtual Lab
Design of the 2D optical waveguides: simulations in Matlab

A10 lab description pdf

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A11-Robot VR with IR sensor or alternative for Virtual Lab: Design of the 3D optical waveguides: simulations in Matlab for optical guiding

A11 lab description pdf

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A12-Michelson Interferometer or alternative for Virtual Lab: Design of the couplers and interferometers: simulations in Matlab for sensing applications, OCT example

A12 lab description pdf

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A13-FBGS and 3D manufacturing of the connectors or alternative for Virtual Lab: Design of the grattings and microrings: simulations in Matlab for sensing applications

A13 lab description pdf

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C14-Review of the activities
Demo: Plasmonic sensor demonstration nanoSPR

lab examination/lab recovery

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I am also happy to set up individual appointments if necessary. Please feel free to stop by during my Lab hours, or at any other time with an email for appointment.
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