I work on quantum systems coupled to noisy environments (noisy as in causing random fluctuations).
Atoms coupled to a light field are my specialty.
Anyway, I just got invited by a predatory journal in the field of acoustics, vibrations and noise?!
I describe the atoms using a so called Lindblad master equation. The atoms are kept in this description, but the light field is eliminated using two assumptions:
The coupling between the two is very weak.
Correlations between the two decay so fast that this can be considered instantaneous.
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.
I left science a long time ago and recently got such an invitation from a Q3 engineering journal on aerodynamics (I worked on quantum systems as well, hi).
I took 3 books on aerodynamics and wrote a paper citing and compiling the texts; adding some chatgpt noise. Really nothing new, just some intermediate equations. The reference section contains these 3 books and 4 recent papers for the introductory part. I sent it several days ago and am awaiting the review.
I look forward to your original contribution, “Atomic Noise: Acoustic Vibrations at Nanomolecular Scale.” Reviewer 2 can suck it, 'cause this one’s about to blow up!
I work on quantum systems coupled to noisy environments (noisy as in causing random fluctuations). Atoms coupled to a light field are my specialty. Anyway, I just got invited by a predatory journal in the field of acoustics, vibrations and noise?!
Hey, noise is noise. What color is yours, white, pink or blue?
I describe the atoms using a so called Lindblad master equation. The atoms are kept in this description, but the light field is eliminated using two assumptions:
The later produces white noise.
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.
I left science a long time ago and recently got such an invitation from a Q3 engineering journal on aerodynamics (I worked on quantum systems as well, hi).
I took 3 books on aerodynamics and wrote a paper citing and compiling the texts; adding some chatgpt noise. Really nothing new, just some intermediate equations. The reference section contains these 3 books and 4 recent papers for the introductory part. I sent it several days ago and am awaiting the review.
I look forward to your original contribution, “Atomic Noise: Acoustic Vibrations at Nanomolecular Scale.” Reviewer 2 can suck it, 'cause this one’s about to blow up!