Talk:Shot noise

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[edit] nature of shot noise

i thought shot noise was to do with electrons passing over a junction between two different conducting materials? ill go else where and check... mark_metcalfe@hotmail.com —Preceding unsigned comment added by 158.125.1.23 (talk • contribs)

I think that's called a flicker noise... kuevis@hotmail.com —Preceding unsigned comment added by 150.150.77.68 (talk • contribs)

Hi,

You are absolutely right, and this page needs some editing. I think I or someone with more detailed knowledge should do this.

Briefly speaking, the granular nature of charge is not responsible for shot noise by itself. Shot noise occurs when charge carriers must cross a junction.

So for instance, a copper wite carrying current will exhibit only thermal noise but not shot noise, while a semiconductor junction will exhibit both.

Flicker noise is an altogether different phenomenon, and while there are several theories and models regarding flicker noise, there is no universally accepted physical model to explain it yet (perhaps a Nobel Prize waiting for someone), despite and perhaps owing to its universal nature. It is seen in phenomena from microscopic scale to the astronomical scale.

Vivek vivkr .at. yahoo . com —Preceding unsigned comment added by 62.218.180.1 (talk • contribs)

I belive you are rong. Shot noise occours in copper wires. Some discussion could take place due to the less deffined position of electrons in copper, but this only reduces the bandwith of the noise and not the its power.
I belive flicker noise is usually due to electron traps in the potential barrier beetwen conductors and isolators.
--Paclopes 19:37, 18 January 2007 (UTC)

According to Horowitz and Hill (2nd eddition) There is less than the expected shot noise in resisotrs and other conductors. (how much less is not specified) This is becasue the electrons in a conductor are coorelated, (I assume by the electric field), when an electron leaves on end of the conductor the other electrons "know" about it. For PN junctions the charge carriers move by diffusion, they are uncoorelated and show shot noise. I find the case of photon noise to be more confusing. All light sources have shot noise, but there can be excess noise from an incoherent light source (light bulb) under certain rather extreme conditions See Hanbury-Brown and Twiss Gherold 18:25, 9 February 2007 (UTC)

[edit] shot and thermal noise

Shot noise is directly dependent on current while thermal noise is indepedent of the applied voltage or current, they don't seem to be related.

>> See the paper by Sarpeshkar, Delbruck, and Mead referenced in the main article. Apparently, they are related through Einstein's relation D_n = \mu_n\,kT/q.

Treat an open circuited resistor as having a pair of balanced diffusion currents in opposite directions, so that the DC current is zero. Since the diffusion currents in opposite directions are uncorrelated, take the sum of the two noise power terms. Then substitute Einstein's relation and combine conductance terms to get i_n^2 = 4\,kT\,G\,\Delta{}f and multiplying both sides by R2 and taking the square root, obtain the classic forumula for Nyquist-Johnson noise: e_n = \sqrt{4\,kT\,R\,\Delta{}f}

Shot noise only depends on fluctuations in the number of carriers arriving in a given interval, assumed to be Poisson-distributed for most purposes, and not on any specific properties of the medium. Contact noise, 1/f noise, popcorn noise, etc., are all examples of excess noise.

[edit] references on noise

Hi,

I forgot to post some references at the end of my mail. I am adding these here. There are bound to be many sources on the web too, which are more accessible to those who are not electrical engineers or have a good library nearby.

Ref. 1 has an excellent introduction on this topic in the Chapter on Noise, (Chap. 10). Ref. 2 is also decent, although their treatment of flicker noise is not perfectly satisfying, even if it is technically correct.

1. "The Design of CMOS Radio Frequency Integrated Circuits" by Thomas H Lee, Cambridge University Press.

2. "Analysis & Design of Analog Integrated Circuits" by Gray, Meyer, Hurst & Lewis, John Wiley & Sons (Chap. 11).

There exist many more references of course ...


Vivek —Preceding unsigned comment added by 62.218.180.1 (talk • contribs)

[edit] examples at top

Say at the top how shot noise might mess up one's life or experiments. --Jidanni 2006-04-16

[edit] formulas

Why there are no formulas for shot noise?! The page is only talk.... Somethink like

I_{sh} = \sqrt{2 q I_{dc} \Delta f}
Please define delta f File Not Found 20:09, 22 September 2007 (UTC)

[edit] Merge Photon noise into this article

Agree PAR 03:43, 5 November 2006 (UTC)

Agree Dr Lind 12:34, 20 December 2006 (ETC) (Shot noise being the more common term)

[edit] Deletion of content

Can someone fact check these edits? I don't understand the changes that were made or why some of the content was deleted. — Omegatron 00:59, 15 November 2006 (UTC)

Hmmmm! I suggest we revert pending me finding my book on Noise ! 8-)--Light current 01:48, 15 November 2006 (UTC)

[edit] simple analogy for non specialists

The article launches into the topic in a fairly technical manner and never explains why it's called 'shot' noise. The way I was introduced to the phenomenon was to imagine the difference between a cup of molten lead being poured onto a surface vs a cup of lead shot. This can also be extended to cover the phenomenon's relevance to extremely low level signals with a bit of imagination. Does someone more eloquent than me want to tackle this before I make a hash of it? :) MagnusL (talk) 11:21, 21 November 2007 (UTC)

I took a shot at an explanation along those lines. I typically explain this to students using light photons but sugar grains / lead shot are perhaps more accessible. That was reverted because it was 'unsourced/POV' -- that's a function of any explanation meant to give intuition. I'm not going to persist, use an edited version of this if you like. 98.216.48.49 (talk) 04:34, 1 June 2008 (UTC)

[edit] Wrong SNR

The wrong SNR is given. You don't have to deal with the signal amplitude and the standard deviation, but with powers/energys, i.e. with the squared amplitude and the variance. Hence, the signal-to-noise ratio of shot noise is N. —Preceding unsigned comment added by 65.202.28.10 (talk) 22:42, 13 December 2007 (UTC)

[edit] Shot noise in conductors?

I thought it was only when crossing junctions of some type. This page also seems to say, at least, that shot noise formulas are not applicable to conductors. — Omegatron (talk) 23:15, 3 May 2008 (UTC)

Here's another. — Omegatron (talk) 23:19, 3 May 2008 (UTC)

"Shot noise is present in any conductor — not just a semiconductor. Barriers in conductors can be as simple as imperfections or impurities in the metal. The level of shot noise, however, is very small due to the enormous numbers of electrons moving in the conductor, and the relative size of the potential barriers. Shot noise in semiconductors is much more pronounced." "Opamps for Everyone" — Omegatron (talk) 22:34, 4 May 2008 (UTC)

To summarize the analog.com article and Horowitz and Hill (who they quote): to have shot noise, you must have 1. small numbers of quanta and 2. independence between the arrival times of the quanta. Metal conductors violate #2 because they have long-range correlations between carriers. So you could still see shot noise in a long tube filled with a salt solution, but not in a long metal wire. 98.216.48.49 (talk) 05:05, 1 June 2008 (UTC)