Photoelectric effect and photocurrent drop

AI Thread Summary
The discussion centers on the behavior of photocurrent in relation to the applied potential across anode and cathode. It questions why the photocurrent does not drop to zero even when the potential equals the kinetic energy of electrons, as observed in experiments. The participant notes that increasing negative voltage on the anode still results in positive photocurrent, suggesting further investigation into larger negative potentials may be necessary. The conversation also touches on the relationship between wavelength and photocurrent, indicating that the expected linear relationship may not hold true. Overall, the findings challenge the assumption that high voltage should lead to zero current, leaving the underlying reasons unclear.
hayyan1
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Homework Statement



Does the photocurrent drop to zero when a potential across it is equal to the kinetic energy of electrons?, because i found this not to be the case, the photocurrent reached a steady value that didnt decrease further, as i increased the potential across the anode and cathode. I don't understand why this happend?
 
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Was the anode at + or - relative to the cathode?
 
anode voltage was increased negatively so electron should be repelled from anode in theory, but for some reason i still was obtaining postive photocurrent, maybe i should have taken much larger negative values for potential, so current would eventually become zero?, however do you think i can extrapolate (with a curve of best fit) to zero current, because my graphs are curving towards zero photocurrent.
 
It depends. What wavelength(s) was/were used to generate the photocurrent? How high a voltage did you get to?

Extrapolating reasonably depends on whether graphing the data generates a straight line. Does it?
 
I used yellow, turquoise, green, blue, violet. it isn't ment to generate a straight line, for each frequency, the photocurrent (yaxis) is kind of meant to drop like a 1/x graph when plotted against the potential across the xaxis
 
That's weird. I would expect current to be zero if you go high enough in voltage, but I haven't done the experiment.

Not sure what's going on.
 
Thread 'Help with Time-Independent Perturbation Theory "Good" States Proof'

Thread 'Help with Time-Independent Perturbation Theory "Good" States Proof'

(Disclaimer: this is not a HW question. I am self-studying, and this felt like the type of question I've seen in this forum. If there is somewhere better for me to share this doubt, please let me know and I'll transfer it right away.) I am currently reviewing Chapter 7 of Introduction to QM by Griffiths. I have been stuck for an hour or so trying to understand the last paragraph of this proof (pls check the attached file). It claims that we can express Ψ_{γ}(0) as a linear combination of...
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