Some of my first renders with Indigo
Some of my first renders with Indigo
Hello,
It's my first post on this forum but I would like to share some of my first renders.
A big thanks to OnoSendai for this incredible free renderer .
Cornel Box ZincBlende Lattice:
Cornel Box Wurtzite Lattice:
Photoluminescence equipement:
Closed MOCVD reactor:
Open MOCVD reactor:
MOCVD reactor in use (Internal Temperature 1000°C):
Thanks for comments!
It's my first post on this forum but I would like to share some of my first renders.
A big thanks to OnoSendai for this incredible free renderer .
Cornel Box ZincBlende Lattice:
Cornel Box Wurtzite Lattice:
Photoluminescence equipement:
Closed MOCVD reactor:
Open MOCVD reactor:
MOCVD reactor in use (Internal Temperature 1000°C):
Thanks for comments!
Thanks
I'll post the result when done.
MOCVD is Metalorganic Chemical Vapor Deposition ( or Metalorganic Vapor Phase Epitaxy), is for making thin film for electronics or optoelectronic devices.
OK I'll try to do this but I don't known what participating media are, so it'll be a little bit long to do .OnoSendai wrote: The Photoluminescence equipment is cool, but there's an experiment i'd like to see done with it:
Set up a light beam through the lenses, add some participating media, and see what it looks like
I'll post the result when done.
MOCVD is Metalorganic Chemical Vapor Deposition ( or Metalorganic Vapor Phase Epitaxy), is for making thin film for electronics or optoelectronic devices.
- Kosmokrator
- Posts: 1141
- Joined: Sat Jul 29, 2006 11:52 am
- Location: Greece-Athens
mamoret wrote:Thanks
OK I'll try to do this but I don't known what participating media are, so it'll be a little bit long to do .OnoSendai wrote: The Photoluminescence equipment is cool, but there's an experiment i'd like to see done with it:
Set up a light beam through the lenses, add some participating media, and see what it looks like
I'll post the result when done.
MOCVD is Metalorganic Chemical Vapor Deposition ( or Metalorganic Vapor Phase Epitaxy), is for making thin film for electronics or optoelectronic devices.
thin film for electronics or optoelectronic devices...?Can you show us an example please?its interesting....
hmmm this thing cost 3 million $.....damn......i foun the info about this....nice thing for inspiration man!keep it up
1)Core i7 965XE stock CLOCK ,PSU:CHIEFTEC 850W
M/B ASUS P6T DELUXE,WATERCOOLING ZALMAN RESERATOR 2
MEMORY:6GB CORRSAIR @1600,Ati HD 4870x2,
MONITOR:LG 1950SQ,CASE:THERMALTAKE SOPRANO
M/B ASUS P6T DELUXE,WATERCOOLING ZALMAN RESERATOR 2
MEMORY:6GB CORRSAIR @1600,Ati HD 4870x2,
MONITOR:LG 1950SQ,CASE:THERMALTAKE SOPRANO
Yes your right the coffee is made in Hydrogen atmosphere under ammonia ans Trimethylindium flow.I think that is a modern coffee or espresso machine.
OK, I'll tryCan you show us an example please?
For the inspiration I had made my PHD studies on this reactor so it was made with blueprint and photography.
Some example of application:
All the device made with GaAs, AlAs, InAs and alloys (not Si) are made with MOCVD system.
You must well known this devices: Yellow to Infrared diodes, laser diodes and photo-detectors. High frequencies component of your cell phone are also made by mocvd...
New devices like Blue (and UV) diodes ans laser diodes made with GaN, InN, AlN and alloys are also made with MOCVD equipment (the reactor I've modeled (AIXTRON R&D equipment) is dedicated to nitrides growth and can go up to 1200°C under corrosive atmosphere).
And now Kosmokrator is your avatar an MOCVD devices???
Sorry for my poor English
- Kosmokrator
- Posts: 1141
- Joined: Sat Jul 29, 2006 11:52 am
- Location: Greece-Athens
And now Kosmokrator is your avatar an MOCVD devices???
hahahah yes definaly.......This Chip have pass from MOCVD process!
thnx for the explanation man!
1)Core i7 965XE stock CLOCK ,PSU:CHIEFTEC 850W
M/B ASUS P6T DELUXE,WATERCOOLING ZALMAN RESERATOR 2
MEMORY:6GB CORRSAIR @1600,Ati HD 4870x2,
MONITOR:LG 1950SQ,CASE:THERMALTAKE SOPRANO
M/B ASUS P6T DELUXE,WATERCOOLING ZALMAN RESERATOR 2
MEMORY:6GB CORRSAIR @1600,Ati HD 4870x2,
MONITOR:LG 1950SQ,CASE:THERMALTAKE SOPRANO
Thanks!!! Thanks!!! Thanks!!!
But you can be more critic, I post for that
By the way, I have seen on
http://deeppixel.uw.hu/projects/NK_materials.html
A render for GaN01.nk data, It works but not as expected:
GaN have a band-gap of about 3.4 eV, so it is transparent to visible light and begin to absorb UV wavelength.
But you can be more critic, I post for that
By the way, I have seen on
http://deeppixel.uw.hu/projects/NK_materials.html
A render for GaN01.nk data, It works but not as expected:
GaN have a band-gap of about 3.4 eV, so it is transparent to visible light and begin to absorb UV wavelength.
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