Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on Rubidium

In this work, we precisely measure the transition energies between the Rydberg state nD5/2 to the nearby Rydberg states (n+2)P3/2, (n−2)F7/2 in 85Rb for the range 41≤n≤46. This was done by carrying out microwave spectroscopy via electromagnetically induced transparency (EIT) in a room temperature va...

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Main Authors: Naomy Duarte Gomes, Daniel Varela Magalhães, J.D. Massayuki Kondo, Luis Gustavo Marcassa
Format: Article
Language:English
Published: Elsevier 2025-01-01
Series:Results in Physics
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Online Access:http://www.sciencedirect.com/science/article/pii/S2211379724007666
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author Naomy Duarte Gomes
Daniel Varela Magalhães
J.D. Massayuki Kondo
Luis Gustavo Marcassa
author_facet Naomy Duarte Gomes
Daniel Varela Magalhães
J.D. Massayuki Kondo
Luis Gustavo Marcassa
author_sort Naomy Duarte Gomes
collection DOAJ
description In this work, we precisely measure the transition energies between the Rydberg state nD5/2 to the nearby Rydberg states (n+2)P3/2, (n−2)F7/2 in 85Rb for the range 41≤n≤46. This was done by carrying out microwave spectroscopy via electromagnetically induced transparency (EIT) in a room temperature vapor reference cell of rubidium, which is similar to the experimental approach followed by Li et al., (2021). This range is interesting because there is a quasi Förster resonance between the atomic pair 43D5/2+43D5/2 and 45P3/2+41F7/2. We compared the obtained results with numerically calculated transition energies based on previously tabulated quantum defect numbers by various research groups using both hot and ultra-cold atomic samples. Our data are more consistent with measurements made within ultra-cold atomic systems (Li et al., 2003; Han et al., 2006).
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spelling doaj-art-f7127e8e403048928c086457756cbcf32025-01-18T05:04:30ZengElsevierResults in Physics2211-37972025-01-0168108081Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on RubidiumNaomy Duarte Gomes0Daniel Varela Magalhães1J.D. Massayuki Kondo2Luis Gustavo Marcassa3Instituto de Física de São Carlos, Universidade de São Paulo, Av. Trab. São Carlense, 400 - Parque Arnold Schimidt, São Carlos, 13566-590, SP, BrazilInstituto de Física de São Carlos, Universidade de São Paulo, Av. Trab. São Carlense, 400 - Parque Arnold Schimidt, São Carlos, 13566-590, SP, BrazilInstituto de Física de São Carlos, Universidade de São Paulo, Av. Trab. São Carlense, 400 - Parque Arnold Schimidt, São Carlos, 13566-590, SP, Brazil; Departamento de Física, Universidade Federal de Santa Catarina, R. Eng. Agronômico Andrei Cristian Ferreira, s/n - Trindade, Florianópolis, 88040-900, SC, BrazilInstituto de Física de São Carlos, Universidade de São Paulo, Av. Trab. São Carlense, 400 - Parque Arnold Schimidt, São Carlos, 13566-590, SP, Brazil; Corresponding author.In this work, we precisely measure the transition energies between the Rydberg state nD5/2 to the nearby Rydberg states (n+2)P3/2, (n−2)F7/2 in 85Rb for the range 41≤n≤46. This was done by carrying out microwave spectroscopy via electromagnetically induced transparency (EIT) in a room temperature vapor reference cell of rubidium, which is similar to the experimental approach followed by Li et al., (2021). This range is interesting because there is a quasi Förster resonance between the atomic pair 43D5/2+43D5/2 and 45P3/2+41F7/2. We compared the obtained results with numerically calculated transition energies based on previously tabulated quantum defect numbers by various research groups using both hot and ultra-cold atomic samples. Our data are more consistent with measurements made within ultra-cold atomic systems (Li et al., 2003; Han et al., 2006).http://www.sciencedirect.com/science/article/pii/S2211379724007666Microwave sensorEITFörster resonanceQuantum defectMicrowave spectroscopy
spellingShingle Naomy Duarte Gomes
Daniel Varela Magalhães
J.D. Massayuki Kondo
Luis Gustavo Marcassa
Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on Rubidium
Results in Physics
Microwave sensor
EIT
Förster resonance
Quantum defect
Microwave spectroscopy
title Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on Rubidium
title_full Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on Rubidium
title_fullStr Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on Rubidium
title_full_unstemmed Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on Rubidium
title_short Microwave spectroscopy assisted by electromagnetically induced transparency near natural Förster resonance on Rubidium
title_sort microwave spectroscopy assisted by electromagnetically induced transparency near natural forster resonance on rubidium
topic Microwave sensor
EIT
Förster resonance
Quantum defect
Microwave spectroscopy
url http://www.sciencedirect.com/science/article/pii/S2211379724007666
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AT danielvarelamagalhaes microwavespectroscopyassistedbyelectromagneticallyinducedtransparencynearnaturalforsterresonanceonrubidium
AT jdmassayukikondo microwavespectroscopyassistedbyelectromagneticallyinducedtransparencynearnaturalforsterresonanceonrubidium
AT luisgustavomarcassa microwavespectroscopyassistedbyelectromagneticallyinducedtransparencynearnaturalforsterresonanceonrubidium