Obtain the de Broglie wavelength associated with thermal neutrons at room temperature (27^(@)C). Hence explain why a fast neutron beam needs to be thermalised with the environmentbefore it can be used for neutron diffraction experiments .

Obtain the de Broglie wavelength associated with thermal neutrons at r

1.	Obtain the de Broglie wavelength associated with thermal neutrons at room temperature (27^(@)C). Hence explain why a fast neutron beam needs to be thermalised with the environmentbefore it can be used for neutron diffraction experiments .
Answer» Solution :`lambda=(h)/(p)=(h)/(sqrt(2mK))`.Thus, for some K, `lambda` decreases with m as `(1//sqrtm)`. Now `(m_(n)//m_(e))=1838.6`, therefore for the same energy, (150 ev) as in Ex. 11.31 wavelength of neutron `=(1//sqrt(1838.6))xx10^(-10)m=2.33xx10^(-12)m`. The INTERATOMIC spacing is about a hundred TIMES greater. A neutron beam of 150 ev energy is therefore not suitable for diffraction EXPERIMENTS. (b) `lambda=1.45xx10^(-10)m[" Use "lambda=(h//sqrt(3mkT))]`which is comparable to interatomic spacing in a crystal. Clearly, from (a) and (b) above, THERMAL neutrons are a suitable probe for diffraction experiments, so a high energy neutron beam should be first thermalised before using it for diffraction.

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Obtain the de Broglie wavelength associated with thermal neutrons at room temperature (27^(@)C). Hence explain why a fast neutron beam needs to be thermalised with the environmentbefore it can be used for neutron diffraction experiments .

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