Specific Process Knowledge/Back-end processing/Laser Micromachining Tool/fluence: Difference between revisions
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'''Unless anything else is stated, everything on this page, text and pictures are made by DTU Nanolab.''' | |||
'''All links to Kemibrug (SDS) and Labmanager Including APV and QC requires login.''' | |||
== Fluence definition == | == Fluence definition == | ||
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The function <math>E_{pulse}</math> is defined as : | The function <math>E_{pulse}</math> is defined as: | ||
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Where <math>\overline{P}</math> (average power) is measured with the laser sensor power measurement (see [http://labmanager.danchip.dtu.dk/d4Show.php?id=2885&mach=309|laser manual],section 5.3) and the repetion rate (<math>f</math>) is set in the parameter file under " laser frequency". | Where <math>\overline{P}</math> (average power) is measured with the laser sensor power measurement (see [http://labmanager.danchip.dtu.dk/d4Show.php?id=2885&mach=309|laser manual],section 5.3) and the repetion rate (<math>f</math>) is set in the parameter file under " laser frequency". | ||
The fluence is therefore determinated as such : | The fluence is therefore determinated as such: | ||
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== Fluence results measurement== | == Fluence results measurement== | ||
The results below have been calculated with the theoretical spot size provided by 3D Micromac. | The results below have been calculated with the theoretical [[Specific Process Knowledge/Back-end processing/Laser Micromachining Tool/Spot size and optics|spot size]] provided by 3D Micromac. | ||
{| border="1" cellspacing="2" cellpadding="2" | {| border="1" cellspacing="2" cellpadding="2" | ||
![[image:161214_FluenceVSrepRate_1064nm_255mm.jpg|500x500px|thumb|center|Fluence result for IR wavelength (1064nm, F255mm)]] | ![[image:161214_FluenceVSrepRate_1064nm_255mm.jpg|500x500px|thumb|center|Fluence result for IR wavelength (1064nm, F255mm)]] | ||
![[image:161214_FluenceVSrepRate_532nm_255mm.jpg|500x500px|thumb|center|Fluence result for green wavelength (532nm, F255mm)]] | ![[image:161214_FluenceVSrepRate_532nm_255mm.jpg|500x500px|thumb|center|Fluence result for green wavelength (532nm, F255mm)]] | ||
![[image:161214_FluenceVSrepRate_355nm_103mm.jpg|500x500px|thumb|center|Fluence result for UV wavelength (355nm, | ![[image:161214_FluenceVSrepRate_355nm_103mm.jpg|500x500px|thumb|center|Fluence result for UV wavelength (355nm, F103mm)]] | ||
|} | |} | ||
{| border="1" cellspacing="2" cellpadding="2" | {| border="1" cellspacing="2" cellpadding="2" | ||
![[image:060815_FluenceVSrepRate_355nm_255mm.jpg|500x500px|thumb|center|Fluence result for UV wavelength (355nm, F255mm)]] | |||
![[image:140618_FluenceVSrepRate_1064nm_IPG.jpg|500x500px|thumb|center|Fluence result for IR wavelength (IPG 1064nm, F255mm). The fluence at 100% and 10kHz must be expected around 25J/cm2]] | ![[image:140618_FluenceVSrepRate_1064nm_IPG.jpg|500x500px|thumb|center|Fluence result for IR wavelength (IPG 1064nm, F255mm). The fluence at 100% and 10kHz must be expected around 25J/cm2]] | ||
|} | |} |
Latest revision as of 12:46, 6 February 2023
Unless anything else is stated, everything on this page, text and pictures are made by DTU Nanolab.
All links to Kemibrug (SDS) and Labmanager Including APV and QC requires login.
Fluence definition
The fluence produces by a laser is, by definition, the energy delivered by a laser pulse () per surface unit () and it is given in J/cm2.
The function is defined as:
Where (average power) is measured with the laser sensor power measurement (see manual,section 5.3) and the repetion rate () is set in the parameter file under " laser frequency".
The fluence is therefore determinated as such:
The area () can be determinate with the theoretical min spot diameter (1/e2), available here
Fluence results measurement
The results below have been calculated with the theoretical spot size provided by 3D Micromac.