Analysis of the optical and magnetooptical spectra of non-Kramers Pr3+(4f2) in Y3Al5O12 complemented by crystal-field modelling

Valiev, U. V.; Gruber, John B.; Burdick, Gary W.; Mukhammadiev, A. K.; Fu, Dejun; Pelenovich, Vasiliy O.

doi:10.1016/j.jlumin.2013.07.070

Cited by 19 publications

(7 citation statements)

References 28 publications

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“…Угол наклона линейной зависимости пропорционален " эффективному" зеемановскому расщеплению комбинированных квазидублетных состояний в эмиссионном 4 f → 4 f -переходе в некрамерсовском ионе. Согласно [6,10] A-член степени МЦПЛ характеризует вклад магнитооптически активного перехода " изолированный синглет → квазидублет". В этом случае значение энергетической щели в квазидублетных состояниях (или в т. н. "…”

Section: экспериментальные результаты и их обсуждениеunclassified

“…Существенно отметить, что наблюдаемые интенсивности этих линий часто бывают сравнимыми по величине с интенсивностями линий, обусловленных разрешенными (рамках той же теории) оптическими переходами 4 f → 4 f . Это например, хорошо видно из сравнения полос люминесценции, измеренных в празеодим-иттриевом гранате-алюминате PrYAG (Pr 3+ : Y 3 Al 5 O 12 ) [6], имеющих сравнимые интенсивности и связанных с запрещенным переходом 3 P 0 → 3 H 5 , с одной стороны, и разрешенным (в рамках вышеупомянутой теории) переходом 3 P 1 → 3 H 5 (см. рис.…”

Section: Introductionunclassified

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Влияние J-J-взаимодействия возбужденных состояний редкоземельного иона Pr-=SUP=-3+-=/SUP=- на магнитополяризованную люминесценцию празеодим-иттриевого граната-алюминия

Валиев¹,

Burdick

Вильданов³

et al. 2019

Физика Твердого Тела

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The spectra of luminescence and magnetic circular polarization of luminescence of praseodymium–yttrium aluminum garnet Pr^3+ : Y_3Al_5O_12 (PrYAG) are studied in the visible spectral region at temperature T = 300 K. An analysis of spectral dependences of magnetooptical and optical spectra makes it possible to identify optical 4 f –4 f -transitions between Stark sublevels of multiplets ^3 P _0, ^3 P _1, ^3 Н _5, and ^3 Н _6 in PrYAG. It was shown that an important role in the spectrum of the degree of magnetic circular polarization of luminescence of this paramagnetic garnet is played by the effect of quantum-mechanical J – J mixing of states of Stark singlets ^3 Н _5 and ^3 Н _6 of non-Kramer rare-earth ion Pr^3+ in the “green” luminescence band related to forbidden 4 f → 4 f transition ^3 P _0 → ^3 Н _5 in the visible spectral region. To interpret the spectra of magnetic circular polarization of luminescence, the energy of experimentally determined Stark sublevels of multiplets under study, their irreducible representations and wave functions determined by numerical simulation of the energy spectrum of the rare-earth ion Pr^3+ in the garnet structure are used.

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Section: экспериментальные результаты и их обсуждениеunclassified

Section: Introductionunclassified

Влияние J-J-взаимодействия возбужденных состояний редкоземельного иона Pr-=SUP=-3+-=/SUP=- на магнитополяризованную люминесценцию празеодим-иттриевого граната-алюминия

Валиев¹,

Burdick

Вильданов³

et al. 2019

Физика Твердого Тела

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“…In recent years, several optically active chiral luminophores with large anisotropy coefficients ( g CPL ) as well as high photoluminescence quantum yields ( Φ PL ) have been extensively used in the emitting layers of devices exhibiting circularly polarised electroluminescence (CPEL). 1–4…”

Section: Introductionmentioning

confidence: 99%

Enhancement of circularly polarized electroluminescence via reflection reversal under a magnetic field

Suzuki,

Yamamoto,

Kitahara

et al. 2024

J. Mater. Chem. C

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“…[38][39][40][41] An external static magnetic (EMF) field is now established as a versatile physical bias that induces chiroptical spectral signals in the ground and photoexcited states of several achiral and racemic organic, and organometallic emitters. [42][43][44][45][46][47][48][49][50][51][52][53][54][55][56] It is well known that chiral Ir(III) complexes exhibit CPL. [57][58][59][60][61] We have recently reported MCPL from racemic mixtures of fac-tris-cyclometalated Ir(III)(ppy) 3 and bis-cyclometalated Ir(III)(ppy) 2 (acac) (ppy: 2-phenylpyridinate, acac: acetylacetonate), as phosphorescence emitters, under 1.6 T EMF at room temperature (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

“…The magnetic circularly polarized luminescence (MCPL) theory by Riehl and Richardson [37] prompted several experiments using symmetric, achiral, and racemic mixtures of lanthanide complexes with achiral ligands, under one of two possible Faraday geometries [38–41] . An external static magnetic (EMF) field is now established as a versatile physical bias that induces chiroptical spectral signals in the ground and photoexcited states of several achiral and racemic organic, and organometallic emitters [42–56] …”

Section: Introductionmentioning

confidence: 99%

External Magnetic Field Driven, Ambidextrous Circularly Polarized Electroluminescence from Organic Light Emitting Diodes Containing Racemic Cyclometalated Iridium(III) Complexes

et al. 2022

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This work reports the development of external magnetic field (EMF) driven, ambidextrous, circularly polarized electroluminescence (CPEL) devices, by embedding racemic mixtures of phosphorescent organoiridium(III) emitters in the active emitting layer. Homoleptic tris‐cyclometalated Ir(III)(ppy)3 and heteroleptic bis‐cyclometalated Ir(III)(ppy)2(acac) (ppy=2‐phenylpyridinate, acac=acetylacetonate) were used as the representative organoiridium(III) compounds. Chiroptical inversion of CPEL was influenced by the ligand environment in the Ir(III) complexes (homoleptic or heteroleptic), as well as the Faraday geometry.

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Analysis of the optical and magnetooptical spectra of non-Kramers Pr3+(4f2) in Y3Al5O12 complemented by crystal-field modelling

Cited by 19 publications

References 28 publications

Влияние J-J-взаимодействия возбужденных состояний редкоземельного иона Pr-=SUP=-3+-=/SUP=- на магнитополяризованную люминесценцию празеодим-иттриевого граната-алюминия

Влияние J-J-взаимодействия возбужденных состояний редкоземельного иона Pr-=SUP=-3+-=/SUP=- на магнитополяризованную люминесценцию празеодим-иттриевого граната-алюминия

Enhancement of circularly polarized electroluminescence via reflection reversal under a magnetic field

External Magnetic Field Driven, Ambidextrous Circularly Polarized Electroluminescence from Organic Light Emitting Diodes Containing Racemic Cyclometalated Iridium(III) Complexes

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