The negative-frequency part of the position noise spectral density of a finite-temperature quantum system indicates its ability to

absorb energy from its environment

emit electrons to its environment

absorb electrons from its environment

The Wiener-Kninchin theorem expresses the relation between the autocorrelation function of an observable and ...

the noise spectral density of the observable

the autocorrelation time scale of the observable

The zero-frequency value of the current noise spectral density characterizes...

the variance of the transmitted charge

the current autocorrelation time

the thermal noise of the current

Theoretical Physics

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10 Qs

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NGSS

HS-PS3-4, HS-PS4-1, HS-PS3-2

Standards-aligned

Charles Martinez

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10 questions

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MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the dimension of the electric current autocorrelation function?

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the dimension of the electric current noise power spectrum?

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

What is the dimension of the position noise power spectrum of a harmonic oscillator?

Which feature of the position noise spectrum of a harmonic oscillator is controlled by temperature?

peak heights

peak widths

distance of peaks

none

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

For a harmonic oscillator with eigenfrequency f = 5 GHz, at which temperature is the average excitation number equal to 1?

346 mK

3.46 K

34.6 mK

3.46 mK

At the lecture, what was the practical motivation to calculate quantum noise of a quantum system?

mathematical beauty

no practical motivation, just an abstract quantity

can characterize measurement back-action

can characterize entanglement with the environment

MULTIPLE CHOICE QUESTION

30 sec • 1 pt

The position autocorrelation function of a finite-temperature harmonic oscillator is proportional to the

temperature

mass

eigenfrequency

none of the others

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