1,178 reputation
726
bio website physicistkennethmui.com
location Philadelphia, PA
age 24
visits member for 3 years, 1 month
seen Apr 6 at 4:02

Graduated physics major and math minor from Drexel University. I want to study entanglement and how to use it to do quantum teleportation on a larger scale.


Dec
21
comment What is in the space between a nucleus of an atom and its electrons?
Anna V. I agree with you. Perhaps Chris Gerig can do this for us. He seems very passionate about how my answer is wrong.
Dec
10
asked What is the spatial mode of light or the spatial mode of a massive particle?
Nov
30
awarded  Caucus
Nov
30
comment Velocity of real gas molecules?
In that case, like I've stated, you'll need to find some extra term that's added or subtracted to the ideal gas law that applies to the real gas you are talking about. That extra term is currently not there and physicists don't bother to find an extra correction because the ideal gas law works pretty well already. However, this gives more reason for you to try to find it! Perhaps you'll rewrite textbooks! :D
Nov
26
answered Velocity of real gas molecules?
Nov
26
asked What's the difference between two Hydrogen atoms?
Nov
26
accepted Free Optics Simulation Programs
Nov
17
accepted How would one calculate the amount of water contained in a cloud?
Nov
8
comment Most sophisticated experiment you could perform in your garage?
Well I heard from Michio Kaku on TV that in High School, he build a particle accelerator in his garage.
Nov
2
accepted Could we use particle colliders as fusion generators?
Nov
2
comment Could we use particle colliders as fusion generators?
Wow. This is a great answer! I was missing a lot of factors that go into it like you've pointed out. However, I didn't know that the collisions of the protons are smaller than a joule per pair. This seems confusing.
Nov
2
asked Could we use particle colliders as fusion generators?
Nov
2
asked How would one calculate the amount of water contained in a cloud?
Nov
1
asked What arrangement of sound waves would be needed to heat air in a typical sized room?
Oct
30
comment Controlling the outcome of a quantum measurement through translational entanglement
By having atom detectors surrounding the harmonic trap, such that if it hits the walls surrounding it, it must mean its not in the trap. Or use a lower power light source, low enough that it will not give energy to the atom in the trap for it to escape. Of course the scientist at Lab B will do this at a specified time, or else he will ruin the entanglement before messages are sent. So you are limited to certain times of sending messages
Oct
29
accepted Controlling the outcome of a quantum measurement through translational entanglement
Oct
29
comment Controlling the outcome of a quantum measurement through translational entanglement
Yes, once you measure it, they stop being entangled. However, I'm suggesting that you can control the position measurement because you choose to measure the position very precisely! I know that it has been established that you can't do it with spin or discrete variables like that because you CAN't control the outcome. However, I'm suggesting this scheme does. This scheme would also mean that you have limited amount of messages to send.
Oct
24
comment Why do green lasers appear brighter and stronger than red and blue lasers?
Found something helpful: ehow.com/info_8059871_astronomical-laser-pointers.html Apparently, we see green light approximately 50 times brighter than red
Oct
24
answered Why do green lasers appear brighter and stronger than red and blue lasers?
Oct
19
comment Understanding a Physics Paper on Quantum Teleportation of Continuous variables
physics.stackexchange.com/questions/39363/…