An electromagnetic wave of wavelength ' \(\lambda\) ' is incident on a photosensitive surface of negligible work function. If ' \(m\) ' mass is of photoelectron emitted from the surface has de-Broglie wavelength \(\lambda_{d}\), then:
A \(\lambda=\left(\frac{2 m}{h c}\right) \lambda_{d}{ }^{2}\)
B \(\lambda_{d}=\left(\frac{2 m c}{h}\right) \lambda^{2}\)
(C) \(\lambda=\left(\frac{2 m c}{h}\right) \lambda_{d}{ }^{2}\)
D \(\lambda=\left(\frac{2 h}{m c}\right) \lambda_{d}{ }^{2}\)