Good evening,
I wonder if anyone is into quantum technologies and metrology, beside JVS? So something like vapour cells, NV-centers, ... Even if just one a research level, I would be interested to hear what you are working on and what you have achieved as of now.
-branadic-
I've wanted to build an Rb MOT ever since I saw one demonstrated at a NIST seminar, but just haven't gotten a round tuit (or a spare $15K or so to buy one off the shelf from ColdQuanta^W
Infleqtion.) Does that count?
Thermometry is my thing, so I am interested in quantum dots as optical temperature sensors e.g.
https://link.springer.com/article/10.1007/s11051-019-4629-8No achievements. Unfortunately I have several projects lined up ahead of that one, including one
on temperature-sensitive Ruby fluorescence. So lessons learned there might carry over to QDs.
Any physicist doing precision measurements can dream of discovering previously unknown effects. Of course it depends on his/her resources, but also it may be luck. Technology is a statistical precondition for new discoveries and patents.
Regards, Dieter
After working for around 2 years for a cold atoms/atom vapour magnetometry research group, I would not make that as a hobby, simply too expensive and time consuming...
Well, that's kind of the idea behind a hobby, now, isn't it?
i feel like its really hard to get that equipment and also the whole idea of maintaining a stock pile of coolant is really lame for a hobby
Good evening,
I wonder if anyone is into quantum technologies and metrology, beside JVS? So something like vapour cells, NV-centers, ... Even if just one a research level, I would be interested to hear what you are working on and what you have achieved as of now.
-branadic-
NIST will sell you a Josephson junction array on a chip for ~$300k. Perfect voltage standard as of 2019.
the whole idea of maintaining a stock pile of coolant
That's, uh, not how it works.
most quantum technologies require a shit load of cryogenic coolant.
Well, not necessary true. For many cold atom experiments one don't need cryogenics, but in fact a heated oven to generate a beam of atom to be Zeeman slowed and loaded to a MOT.... For the projects using warm vapor it's more obvious.
that is nice to know I thought liquid helium was a requirement for 95% of quantum physics.
someone should make a list of quantum apparatus that can be used without LH
Interesting to note that only a handful of people are into the quantum field.
I recently started with NV centers in diamand, a quantum system working at room temperature. We breadboarded the very first quantum magnetometer last week and are currently working on an improved version. But that is just the start to develope a gut feeling and to further improve the setup. I have one or the other idea what is yet to come.
-branadic-
Afaik all today's semiconductor lasers for optical networks are based on QD.
Would be interesting to have such a laser handy, run it at a low power, at a "constant" temperature and current and use it as a voltage source (like we do sometimes with an LED).
I think VCSELs are prevalent for the lowest end 850nm transceivers, and most O-band and C-band high-end devices are usually InP quantum well lasers, still quantum but not dots. QD lasers are mostly still in R&D.
Would be interesting to have such a laser handy, run it at a low power, at a "constant" temperature and current and use it as a voltage source (like we do sometimes with an LED).
You mean, like an LED is sometimes used as sort-of-zener diode? Would a quantum dot laser have good voltage stability if used that way?
I think VCSELs are prevalent for the lowest end 850nm transceivers, and most O-band and C-band high-end devices are usually InP quantum well lasers, still quantum but not dots. QD lasers are mostly still in R&D.
It could be.. QDots, QWells, QLayers, QWires - those are today's buzzwords..
Would be interesting to have such a laser handy, run it at a low power, at a "constant" temperature and current and use it as a voltage source (like we do sometimes with an LED).
You mean, like an LED is sometimes used as sort-of-zener diode? Would a quantum dot laser have good voltage stability if used that way?
Yes, no idea..
the most interesting thing about quantum dots is is that its just fine powder. I think the name is super marketing. Because really, its a fine powder, treated with basically anti caking coatings, much like table salt.
how about semiconductor meal. and angel hair wire.
I felt a little cheated when I found out what quantum dots actually were.
Hello guys.
Im currently working in quantum technologies as ee
Something about quantum computers and quantum key distribution