Optical properties of CaWO<sub>4</sub> and CaMoO<sub>4</sub> crystals in the 4 to 25 eV region

Grasser, R.; Pitt, E.; Scharmann, A.; Zimmerer, G.

doi:10.1002/pssb.2220690206

Cited by 155 publications

(68 citation statements)

References 17 publications

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“…In the optical spectra of scheelite crystals other than PbWO 4 , the lowest absorption band is observed at around 6 eV for tungstates such as CaWO 4 and BaWO 4 [9,15], and at around 5 eV for molybdates such as CaMoO 4 , CdMoO 4 and BaMoO 4 [15][16][17]. The lowest absorption band in CaWO 4 was assigned to the transition to the 1s exciton state [14], since the peak position locates below the threshold energy (7.0 eV) for photo-excitation of free carriers to induce thermoluminescence (TL) [18].…”

Section: Introductionmentioning

confidence: 98%

Comparative study of optical spectra and electronic structures of CaMoO₄ and CaWO₄ crystals

Fujita

Itoh

Takagi

et al. 2006

Physica Status Solidi (b)

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Polarized reflectivity spectra of CaMoO 4 and CaWO 4 single crystals have been measured up to 30 eV by using synchrotron radiation as a light source. The optical constants for a-and c-axes are derived from the reflectivity spectra by a Kramers -Kronig analysis. A clear correspondence is found in the main structures of the optical spectra between molybdate and tungstate. It is revealed that the lowest bands peaking at 5.0 eV in CaMoO 4 and at 6.0 eV in CaWO 4 consisit of some fine structures with distinct dichroism. They are attributed to the joint density-of-states; in other words, no structures indicative of exciton transition are found at the fundamental absorption edge. From the comparison of the spectral profiles in CaMoO 4 and CaWO 4 , the structures below 10 eV are ascribed to the transitions from the O 2p valence band to the conduction band mainly made of Mo 4d (W 5d) states, while those above 10 eV are assigned to the transitions to the Ca conduction band. The polarization dependence of the structures below 10 eV is explained well in terms of the intramolecular transition in an oxyanion complex in the scheelite crystal. The energy band structure of CaWO 4 is discussed taking into account of the previous results such as the thermostimulated luminescence and the two-photon excitation.

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Section: Introductionmentioning

confidence: 98%

Comparative study of optical spectra and electronic structures of CaMoO₄ and CaWO₄ crystals

Fujita

Itoh

Takagi

et al. 2006

Physica Status Solidi (b)

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“…Luminescence of single crystals of lead tungstate was studied in the 1970s [1,2] and became a subject of renewed interest about ten years ago when this material was chosen for high energy physics detectors [3]. The recent results, obtained in the study of its scintillation characteristics and material optimization, were reviewed in [4,5].…”

Section: Introductionmentioning

confidence: 99%

Localized excitons and defects in PbWO₄ single crystals: a luminescence and photo‐thermally stimulated disintegration study

Krasnikov

Nikl

Zazubovich³

2006

Physica Status Solidi (b)

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PACS 71. 78.55.Hx, 78.60.Kn Luminescence from the exciton-and defect-related states and photo-thermally stimulated disintegration of these states under selective UV irradiation were studied in the PbWO 4 : Mo, Ce crystal and compared with the characteristics of other undoped and doped PbWO 4 crystals of different origin. For the first time, various localized exciton states were identified and their decay into stable defects was found. Different positions, halfwidths and temperature dependences were observed for the blue emission spectrum in different PbWO 4 crystals and explained by the presence of strongly overlapping emission bands of the WO 4 2--type self-trapped and localized excitons. Binding energies of the self-trapped and localized exciton states were calculated. The dominant thermally stimulated luminescence peaks, created in the PbWO 4 : Mo, Ce crystal by the UV radiation, are located at 110, 202 and 247 K. The related trap depths were calculated using the initial rise method. It was concluded that under irradiation in the exciton absorption region, defects are mainly created due to the disintegration of the localized exciton states, which occurs without release of free charge carriers.

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“…In these materials, the anionic framework is usually built from MoO 4 tetrahedra linked to the transition metal polyhedra, leading to a large variety of crystal structures with a high capacity for cationic substitution. The chemistry of inorganic molybdate materials has been significantly advanced thanks to their valuable electrical and optical properties, which make them promising for various applications such as photoluminescence [1], ionic conductivity [2][3][4], laser materials [5,6], and piezoelectrics [7]. The high-temperature superconductivity present in the copper-oxygen ceramic systems resulted in an increasing structural and physicochemistry interest of materials containing Cu-O [8].…”

Section: Introductionmentioning

confidence: 99%

Electrical and Vibrational Studies of Na₂K₂Cu(MoO₄)₃

Dridi

Zid

Mączka

2017

Advances in Materials Science and Engineering

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The complex impedance of Na 2 K 2 Cu(MoO 4 ) 3 material has been investigated in the temperature range of 653-753 K and in the frequency range of 40 Hz-5 MHz. Electrical behavior of the studied material is explained through an equivalent circuit model which takes into account the contributions of grains and grains boundaries. The number of vibrational modes was calculated using group theoretical approach. The infrared and Raman spectra have also been measured and vibrational assignment has been proposed.

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Optical properties of CaWO₄ and CaMoO₄ crystals in the 4 to 25 eV region

Cited by 155 publications

References 17 publications

Comparative study of optical spectra and electronic structures of CaMoO₄ and CaWO₄ crystals

Comparative study of optical spectra and electronic structures of CaMoO₄ and CaWO₄ crystals

Localized excitons and defects in PbWO₄ single crystals: a luminescence and photo‐thermally stimulated disintegration study

Electrical and Vibrational Studies of Na₂K₂Cu(MoO₄)₃

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Optical properties of CaWO4 and CaMoO4 crystals in the 4 to 25 eV region

Cited by 155 publications

References 17 publications

Comparative study of optical spectra and electronic structures of CaMoO4 and CaWO4 crystals

Comparative study of optical spectra and electronic structures of CaMoO4 and CaWO4 crystals

Localized excitons and defects in PbWO4 single crystals: a luminescence and photo‐thermally stimulated disintegration study

Electrical and Vibrational Studies of Na2K2Cu(MoO4)3

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Optical properties of CaWO₄ and CaMoO₄ crystals in the 4 to 25 eV region

Comparative study of optical spectra and electronic structures of CaMoO₄ and CaWO₄ crystals

Comparative study of optical spectra and electronic structures of CaMoO₄ and CaWO₄ crystals

Localized excitons and defects in PbWO₄ single crystals: a luminescence and photo‐thermally stimulated disintegration study

Electrical and Vibrational Studies of Na₂K₂Cu(MoO₄)₃