@[email protected]M to Science [email protected]English • 4 months agoDon't fret, check your spam foldermander.xyzimagemessage-square15fedilinkarrow-up1631arrow-down14
arrow-up1627arrow-down1imageDon't fret, check your spam foldermander.xyz@[email protected]M to Science [email protected]English • 4 months agomessage-square15fedilink
minus-square@trolololollinkEnglish4•4 months agoThat’s cool In most fields " so fast that’s instantaneous" is pretty fast, but in nuclear and quantum physics that’s a whole new level. What is the order of magnitude of your " too fast ”? I will invert that to state the bandwidth in Hertz.
minus-square@[email protected]linkfedilinkEnglish2•edit-24 months agoTypical transition frequencies between two levels of an atom are 10^15Hz. The coupling between atoms and light is on the order of the decay rate at which photons are transmitted, which sits at around 10^6Hz.
That’s cool
In most fields " so fast that’s instantaneous" is pretty fast, but in nuclear and quantum physics that’s a whole new level.
What is the order of magnitude of your " too fast ”? I will invert that to state the bandwidth in Hertz.
Typical transition frequencies between two levels of an atom are 10^15Hz. The coupling between atoms and light is on the order of the decay rate at which photons are transmitted, which sits at around 10^6Hz.