Specific Process Knowledge/Characterization/Lifetime scanner MDPmap: Difference between revisions

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=<span style="background:#FF2800">THIS PAGE IS UNDER CONSTRUCTION</span>[[image:Under_construction.png|200px]]=


'''Feedback to this page''': '''[mailto:labadviser@danchip.dtu.dk?Subject=Feed%20back%20from%20page%20http://labadviser.danchip.dtu.dk/index.php/Specific_Process_Knowledge/Characterization/Lifetime_scanner_MDPmap click here]'''
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''This page is written by DTU Nanolab internal''


 
[[image:Lifetimescanner04.jpg|400x400px|right|thumb|Lifetime scanner MPDmap, positioned in cleanroom F-2.]]
[[image:Lifetimescanner04.jpg|400x400px|right|thumb|Lifetime scanner MPDmap, positioned in cleanroom D-3.]]


== Microwave Detected Photoconductivity (MDP) ==
== Microwave Detected Photoconductivity (MDP) ==
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only by the diffusion length of the charge carriers.
only by the diffusion length of the charge carriers.


'''The user manual, control instruction, the user APV and contact information can be found in LabManager:'''
'''The user manual, the APV and contact information can be found in LabManager:'''


[http://labmanager.dtu.dk/function.php?module=Machine&view=view&mach=338 Lifetime scanner MPDmap info page in LabManager],
[http://labmanager.dtu.dk/function.php?module=Machine&view=view&mach=338 Lifetime scanner MPDmap info page in LabManager],
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== Performance information ==
== Performance information ==


'''Range of lifetimes''': 20 ns to several ms
'''The resistivity range for lifetime measurements''' 0.2 to 100 Ohm.cm, p/n
'''Material''': Silicon, epitaxial layers, partially or fully processed wafers, compound semiconductors and beyond.
'''Measureable properties''': Carrier lifetime (steady state or non equilibrium (µ -PCD) selectable), photoconductivity (steady state) microwave Photoconductance Decay (µ-PCD)


==Equipment performance and process related parameters==
==Equipment performance and process related parameters==
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*D-3
*Cx1


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*405 nm
*405 nm
**Power 5 mW to 100 mW
**Power 5 mW to 100 mW
*978 nm
*977 nm
**Power 5 mW to 140 mW
**Power 5 mW to 190 mW
*975 nm
*975 nm
**Power 0.5 W to 4.0 W
**Power 0.5 W to 4.0 W
*977 nm
**Power up to 200 µW
*Spot diameter for all laser 0.5 µm
*Spot diameter for all laser 0.5 µm
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|-

Latest revision as of 09:32, 10 May 2023

Feedback to this page: click here

This page is written by DTU Nanolab internal

Lifetime scanner MPDmap, positioned in cleanroom F-2.

Microwave Detected Photoconductivity (MDP)

Topographic visualisation of electrically active defects or materiel properties at almost any production stage, allows for process optimization and performance prediction of devices.

MDP is a contact less, non destructive measurement technology for the electrical characterization of a large variety of semiconductors. The mapping and visualization of so far not detectable defects was achieved by improving the sensitivity of a microwave detection system by several orders of magnitude. Electrical properties such as lifetime, τ, mobility, μ, and diffusion length, L, can be measured also at very low injection levels with a spatial resolution limited only by the diffusion length of the charge carriers.

The user manual, the APV and contact information can be found in LabManager:

Lifetime scanner MPDmap info page in LabManager,

Performance information

Range of lifetimes: 20 ns to several ms

The resistivity range for lifetime measurements 0.2 to 100 Ohm.cm, p/n

Material: Silicon, epitaxial layers, partially or fully processed wafers, compound semiconductors and beyond.

Measureable properties: Carrier lifetime (steady state or non equilibrium (µ -PCD) selectable), photoconductivity (steady state) microwave Photoconductance Decay (µ-PCD)

Equipment performance and process related parameters

Equipment Lifetime scanner MDPmap
Purpose
  • Carrier Lifetime
  • Photoconductivity
Location
  • Cx1
Instrument specifics Detector
  • Microwave detector
Laser
  • 405 nm
    • Power 5 mW to 100 mW
  • 977 nm
    • Power 5 mW to 190 mW
  • 975 nm
    • Power 0.5 W to 4.0 W
  • 977 nm
    • Power up to 200 µW
  • Spot diameter for all laser 0.5 µm
Substrates Size
  • Sample sizs between 5 mm x 5 mm up to 16" or 210 mm x 210 mm
  • Sample thickness 10 µm to 20 mm
Allowed materials
  • Any standard cleanroom materials.
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