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Bibliographic Details
Main Authors: Gutierrez Vela, Yael, Espinoza, Shirly, Rebarz, Mateusz, Vazquez-Miranda, Saul, Ramanathan, Shriram, PATEL, RANJAN KUMAR
Format: Recurso digital
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.20433965
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  • <h3>Data available</h3> <p>Transient pseudo dielectric function and ellipsometric parameters (\Psi and \Delta) measured with a time-resolved pump-probe ellipsometry on a 50 nm NdNiO3 film deposited on LaAlO3.</p> <p>The data of the transient pseudo dielectric function and ellipsometric parameters (\Psi and \Delta) are provided for different pump wavelengths:.</p> <ul> <li>\lambda_{pump} = 266 nm </li> <li>\lambda_{pump} = 400 nm</li> <li>\lambda_{pump} = 800 nm </li> </ul> <h3>Naming of the files</h3> <p>In the .zip file that can be downloaded here, there are several folders.</p> <p>Each are named as NdNiO3_LaAlO3_pump_XX_nm where XXX is either 266, 400 or 800.</p> <p>In each folder are four files.</p> <ul> <li>delta.txt - values of \Delta.</li> <li>psi.txt- values of \Psi.</li> <li>pseudoepsilon1.txt - values of the real part of the transient pseudo dielectric function.</li> <li>pseudoepsilon2.txt- values of \Psi.</li> <li>diffpseudoepsilon1.txt- values of the changes in the real part of the transient pseudo dielectric function.</li> <li>diffpseudoepsilon2.txt- values of the changes imaginary part of the transient pseudo dielectric function.</li> </ul> <h3>Structure of the files</h3> <p>Each file has the same structure:</p> <p>The first row: an array time delays in picosecond for which measurements have been performed.</p> <p>In the rest of rows, the first element of the array are the photon energy, while the rest of the elements are the values of the transient dielectric function or ellipsometric parameters (\Psi and \Delta) at each of the elements in the time delay array.</p> <p>Example:</p> <p>time delay       t1                         t2                           t3</p> <p>E1(eV)      Delta(E1, t1)        Delta(E1, t2)          Delta(E1, t3)</p> <p>E2(eV)      Delta(E2, t1)       Delta(E2, t2)         Delta(E2, t3)</p> <p>E3(eV)      Delta(E3, t1)       Delta(E3, t2)         Delta(E3, t3)</p> <p> </p>