Near-field diffraction of protons by a nanostructured metallic grating
under external electric field: Asymmetry and sidebands in Talbot self-imaging
- URL: http://arxiv.org/abs/2304.10497v1
- Date: Thu, 20 Apr 2023 17:38:21 GMT
- Title: Near-field diffraction of protons by a nanostructured metallic grating
under external electric field: Asymmetry and sidebands in Talbot self-imaging
- Authors: Sushanta Barman and Sudeep Bhattacharjee
- Abstract summary: Self-imaging in near-field diffraction is a practical application of coherent manipulation of matter waves in Talbot interferometry.
In this work, near-field diffraction of protons by a nanostructured metallic grating under the influence of (a) uniform, (b) spatially modulated, and (c) temporally modulated electric fields are investigated.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Self-imaging in near-field diffraction is a practical application of coherent
manipulation of matter waves in Talbot interferometry. In this work, near-field
diffraction of protons by a nanostructured metallic grating under the influence
of (a) uniform, (b) spatially modulated, and (c) temporally modulated electric
fields are investigated. Time-domain simulations of two-dimensional Gaussian
wave packets for protons are performed by solving the time-dependent
Schr\"odinger's equation using the generalized finite difference time domain
(GFDTD-Q) method for quantum systems. Effects of strength ($E_0$) and
orientation ($\theta$) of the uniform electric field on the diffraction
properties, such as fringe pattern, intensity of the peaks, fringe shift, and
visibility, are investigated. The results show that the Talbot fringes shift
significantly in the transverse direction even for a small change in the
applied electric field ($\Delta E_0$ $=0.1$ V/m) and its orientation ($\Delta
\theta$ $=0.1^o$). The potential barriers arising from a spatially modulated
electric field are observed to cause significant distortions in the Talbot
patterns when the modulation length ($\lambda'$) is equal to the de Broglie
wavelength ($\lambda_{dB}$). Sidebands are observed in the Talbot pattern due
to the efficient transfer of energy from the oscillating field to the wave
packet when the frequency of oscillation ($\omega$) is of the order of
$\omega_0$ ($=2\pi/T_0$), where $T_0$ is the interaction time. This study will
be helpful in uniform electric field-controlled precision metrology, developing
a highly sensitive electric field sensor based on Talbot interference, and
precisely aligning the matter wave optical setup. Furthermore, the sidebands in
the Talbot fringe can be used as a precise tool as momentum splitter in matter
wave interferometry.
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