Salvato in:
Dettagli Bibliografici
Autori principali: Lacy, John H., Kinney, Abby C., Majumder, P. K.
Natura: Preprint
Pubblicazione: 2025
Soggetti:
Accesso online:https://arxiv.org/abs/2501.18408
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1866909542105743360
author Lacy, John H.
Kinney, Abby C.
Majumder, P. K.
author_facet Lacy, John H.
Kinney, Abby C.
Majumder, P. K.
contents We have completed measurements of two low-lying excited-state electric-dipole (E1) transition amplitudes in lead. Our measured reduced matrix elements of the $(6s^2 6p^2)^3P_1 \to (6s^2 6p7s)^3P_0$ transition at 368.3 nm and the 405.8 nm $(6s^2 6p^2)^3P_2 \to (6s^2 6p7s)^3P_1$ transition are 1.90(1) a.u. and 3.01(2) a.u. respectively, both measured to sub-1 % precision and both in excellent agreement with the latest $ab \ initio$ lead wavefunction calculations. These measurements were completed by comparing the low-field Faraday optical rotation spectra of each E1 transition in turn with that of the ground-state $^{3}P_0 \to ^{3}P_1$ M1 transition under identical experimental conditions. Our spectroscopy technique involves polarization modulation and lock-in detection yielding microradian-level optical rotation resolution. At temperatures where direct absorption was significant for both E1 and M1 transitions, we also extracted matrix element values from a direct optical absorption depth comparison. As part of this work we designed an interaction region within our furnace which allowed precise determination of our quartz vapor cell sample temperature to provide accurate determination of the Boltzmann thermal population of the low-lying excited states that were studied.
format Preprint
id arxiv_https___arxiv_org_abs_2501_18408
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle High-precision measurements of electric-dipole-transition amplitudes in excited states of $^{208}$Pb using Faraday rotation spectroscopy
Lacy, John H.
Kinney, Abby C.
Majumder, P. K.
Atomic Physics
We have completed measurements of two low-lying excited-state electric-dipole (E1) transition amplitudes in lead. Our measured reduced matrix elements of the $(6s^2 6p^2)^3P_1 \to (6s^2 6p7s)^3P_0$ transition at 368.3 nm and the 405.8 nm $(6s^2 6p^2)^3P_2 \to (6s^2 6p7s)^3P_1$ transition are 1.90(1) a.u. and 3.01(2) a.u. respectively, both measured to sub-1 % precision and both in excellent agreement with the latest $ab \ initio$ lead wavefunction calculations. These measurements were completed by comparing the low-field Faraday optical rotation spectra of each E1 transition in turn with that of the ground-state $^{3}P_0 \to ^{3}P_1$ M1 transition under identical experimental conditions. Our spectroscopy technique involves polarization modulation and lock-in detection yielding microradian-level optical rotation resolution. At temperatures where direct absorption was significant for both E1 and M1 transitions, we also extracted matrix element values from a direct optical absorption depth comparison. As part of this work we designed an interaction region within our furnace which allowed precise determination of our quartz vapor cell sample temperature to provide accurate determination of the Boltzmann thermal population of the low-lying excited states that were studied.
title High-precision measurements of electric-dipole-transition amplitudes in excited states of $^{208}$Pb using Faraday rotation spectroscopy
topic Atomic Physics
url https://arxiv.org/abs/2501.18408