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Latvijas Vēstures Institūta Žurnāls. 2012, Nr. 2 (83)

2012

Valsts pētījuma programma "Nacionālā identitāte: valoda, Latvijas vēsture, kultūra un cilvēkdrošība"

"Bērnu arheoloģija" un Latvijas arheoloģiskā materiāla izmantošana:HUMANITIES and RELIGION::History and philosophy subjects::Archaeology subjects [Research Subject Categories]:HUMANITIES and RELIGION::History and philosophy subjects::History subjects [Research Subject Categories]RecenzijasV. Grīna vadītās ASV misijas darbība Latvijā 1919. gadāThe Sources on the Early Modern Livonia in the Polish Crown Chancery BooksZinātnes dzīveVēstures avotiLielo kapu rekonstrukcijas piemērsPersonālijas

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La Inteligencia Intrapersonal en el aula de E/LE: una propuesta didáctica para alumnos sinohablantes

2020

Resumen: El proceso de adquisición del español como LM de los estudiantes sinohablantes se ve dificultado por el elevado índice de variables conflictivas de índole lingüística y cultural que entran en juego. La importancia que estas variables tienen en el desarrollo de su proceso de enseñanza-aprendizaje convierte a los alumnos chinos en un grupo diferencial dentro del conjunto de aprendientes de E/LE. Con una lengua materna tipológicamente distante del español y educados en un sistema educativo organizado a partir del estructuralismo y del método de gramática-traducción, estos alumnos presentan unas necesidades específicas de aprendizaje que los docentes deberán tener en cuenta si desean a…

"UNESCO:PEDAGOGÍA"First languageCultural issuesSociologyCommunicative language teachingPersonal motivationHumanitiesIntrapersonal communicationEducational systemsForo de profesores de E/LE

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"Figure 11" of "Cold-nuclear-matter effcts on heavy-quark production in d+Au collisions at sqrt(s_NN)=200 GeV"

2023

Heavy flavor electron $R_{dA}$ 60-88% $d$+Au collisions. The nuclear modification factor, $R_{dA}$, for electrons from open heavy flavor decays, for the (a) most central and (b) most peripheral centrality bins.

$d$ + Au$\implies$ CHARGED Xheavy flavor electronlight flavor mesonsmass-dependent Cronin enhancementRelativistic Heavy Ion Collider$p + p$ $\implies$ CHARGED Xheavy $D$ meson familyheavy flavor mesons200.0ppg131

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"Figure 8" of "Cold-nuclear-matter effcts on heavy-quark production in d+Au collisions at sqrt(s_NN)=200 GeV"

2023

Heavy flavor electron RdA 0-20% $d$+Au collisions. The nuclear modification factor, $R_{dA}$, for electrons from open heavy flavor decays, for the (a) most central and (b) most peripheral centrality bins.

$d$ + Au$\implies$ CHARGED Xheavy flavor electronlight flavor mesonsmass-dependent Cronin enhancementRelativistic Heavy Ion Collider$p + p$ $\implies$ CHARGED Xheavy $D$ meson familyheavy flavor mesons200.0ppg131

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"Figure 9" of "Cold-nuclear-matter effcts on heavy-quark production in d+Au collisions at sqrt(s_NN)=200 GeV"

2023

Heavy flavor electron $R_{dA}$ 20-40% $d$+Au collisions. The nuclear modification factor, $R_{dA}$, for electrons from open heavy flavor decays, for the (a) most central and (b) most peripheral centrality bins.

$d$ + Au$\implies$ CHARGED Xheavy flavor electronlight flavor mesonsmass-dependent Cronin enhancementRelativistic Heavy Ion Collider$p + p$ $\implies$ CHARGED Xheavy $D$ meson familyheavy flavor mesons200.0ppg131

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"Figure 7" of "Cold-nuclear-matter effcts on heavy-quark production in d+Au collisions at sqrt(s_NN)=200 GeV"

2023

Heavy flavor electron $R_{dA}$ 0-100% d+Au collisions. The nuclear modification factors $R_{dA}$ and $R_{AA}$ for minimum bias $d$+Au and Au+Au collisions, for the $\pi^{0}$ and $e^{\pm}_{HF}$. The two boxes on the right side of the plot represent the global uncertainties in the $d$+Au (left) and Au+Au (right) values of $N_{coll}$ . An additional common global scaling uncertainty of 9.7% on $R_{dA}$ and $R_{AA}$ from the $p+p$ reference data is omitted for clarity.

$d$ + Au$\implies$ CHARGED Xheavy flavor electronlight flavor mesonsmass-dependent Cronin enhancementRelativistic Heavy Ion Collider$p + p$ $\implies$ CHARGED Xheavy $D$ meson familyheavy flavor mesons200.0ppg131

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"Figures 3-6" of "Cold-nuclear-matter effcts on heavy-quark production in d+Au collisions at sqrt(s_NN)=200 GeV"

2023

Heavy flavor electron yield, $d$+Au $\implies$ CHARGED X. Electrons from heavy flavor decays, separated by centrality. The lines represent a fit to the previous $p+p$ result [23], scaled by $N_{coll}$. The inset shows the ratio of photonic background electrons determined by the converter and cocktail methods for Minimum Bias $d$+Au collisions, with error bars (boxes) that represent the statistical uncertainty on the converter data (systematic uncertainty on the photonic-electron cocktail).

$d$ + Au$\implies$ CHARGED Xheavy flavor electronlight flavor mesonsmass-dependent Cronin enhancementRelativistic Heavy Ion Collider$p + p$ $\implies$ CHARGED Xheavy $D$ meson familyheavy flavor mesons200.0ppg131

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"Figure 10" of "Cold-nuclear-matter effcts on heavy-quark production in d+Au collisions at sqrt(s_NN)=200 GeV"

2023

Heavy flavor electron $R_{dA}$ 40-60% $d$+Au collisions. The nuclear modification factor, $R_{dA}$, for electrons from open heavy flavor decays, for the (a) most central and (b) most peripheral centrality bins.

$d$ + Au$\implies$ CHARGED Xheavy flavor electronlight flavor mesonsmass-dependent Cronin enhancementRelativistic Heavy Ion Collider$p + p$ $\implies$ CHARGED Xheavy $D$ meson familyheavy flavor mesons200.0ppg131

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"Figures 1-2" of "Cold-nuclear-matter effcts on heavy-quark production in d+Au collisions at sqrt(s_NN)=200 GeV"

2023

Heavy flavor electron yield, Run-8 $p$ + $p$, $d$+Au collisions. Electrons from heavy flavor decays, separated by centrality. The lines represent a fit to the previous $p+p$ result [23], scaled by $N_{coll}$. The inset shows the ratio of photonic background electrons determined by the converter and cocktail methods for Minimum Bias $d$+Au collisions, with error bars (boxes) that represent the statistical uncertainty on the converter data (systematic uncertainty on the photonic-electron cocktail).

$d$ + Au$\implies$ CHARGED Xheavy flavor electronlight flavor mesonsmass-dependent Cronin enhancementRelativistic Heavy Ion Collider$p + p$ $\implies$ CHARGED Xheavy $D$ meson familyheavy flavor mesons200.0ppg131

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Structure, morphology and photoluminescence emissions of ZnMoO4: RE 3+=Tb3+ - Tm3+ - X Eu3+ (x = 1, 1.5, 2, 2.5 and 3 mol%) particles obtained by the…

2018

Made available in DSpace on 2018-12-11T17:36:34Z (GMT). No. of bitstreams: 0 Previous issue date: 2018-06-25 Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP) Ministerio de Economía y Competitividad ZnMoO4 and ZnMoO4: RE3+ = 1% Tb3+, 1% Tm3+, x Eu3+ (x = 1, 1.5, 2, 2.5 and 3 mol%) particles were prepared by a sonochemical method. The influence of the dopant content on photoluminescent behavior was investigated. The X-ray diffraction results confirmed the formation of the α-ZnMoO4 phase with a triclinic crystalline structure. The influence of th…

- Tm3+- Eu3+PhotoluminescenceMaterials scienceEu3+Tm3+Band gapAnalytical chemistryPhosphor02 engineering and technologyTriclinic crystal system010402 general chemistry01 natural sciencesSonochemical method PhotoluminescenceTb3+Materials ChemistrySINTERIZAÇÃOPhotoluminescenceQuenchingDopantMechanical EngineeringMetals and AlloysTb3+ [ZnMoO4]021001 nanoscience & nanotechnology0104 chemical sciencesMechanics of MaterialsDensity functional theoryZnMoO4Wulff constructionSonochemical method0210 nano-technology

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