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Autori principali: Ramos, Talita J. S., Musialek, Agata, Tomala, Robert, Strek, Wieslaw
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2509.08695
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author Ramos, Talita J. S.
Musialek, Agata
Tomala, Robert
Strek, Wieslaw
author_facet Ramos, Talita J. S.
Musialek, Agata
Tomala, Robert
Strek, Wieslaw
contents Herein, an experimental and theoretical analysis of broadband laser-induced white light emission (LIWE) in lead-free perovskite under near-infrared excitation is reported. LIWE is a tunable emission influenced by excitation wavelength, power density, pressure, and temperature. The radiance profile presented in this work closely resembles the solar spectral distribution, suggesting potential for solid-state lighting and photovoltaic applications. Based on theoretical modelling, along with photophysical and photoconductivity characterisations, a mathematical description of the LIWE generation is presented. This model describes LIWE as a dynamical process that explains the supralinear dependence of the integrated emission intensity on laser power density, pressure, photophysical kinetics, and photocurrent associated with the emission phenomena under excitation at high laser power densities.
format Preprint
id arxiv_https___arxiv_org_abs_2509_08695
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Above and beyond the laser induced anti Stokes broadband white light emission in rare earth manganese perovskites
Ramos, Talita J. S.
Musialek, Agata
Tomala, Robert
Strek, Wieslaw
Optics
Applied Physics
Instrumentation and Detectors
Herein, an experimental and theoretical analysis of broadband laser-induced white light emission (LIWE) in lead-free perovskite under near-infrared excitation is reported. LIWE is a tunable emission influenced by excitation wavelength, power density, pressure, and temperature. The radiance profile presented in this work closely resembles the solar spectral distribution, suggesting potential for solid-state lighting and photovoltaic applications. Based on theoretical modelling, along with photophysical and photoconductivity characterisations, a mathematical description of the LIWE generation is presented. This model describes LIWE as a dynamical process that explains the supralinear dependence of the integrated emission intensity on laser power density, pressure, photophysical kinetics, and photocurrent associated with the emission phenomena under excitation at high laser power densities.
title Above and beyond the laser induced anti Stokes broadband white light emission in rare earth manganese perovskites
topic Optics
Applied Physics
Instrumentation and Detectors
url https://arxiv.org/abs/2509.08695