Band-edge problem in the theoretical determination of defect energy levels: The O vacancy in ZnO as a benchmark case

The present investigation was undertaken to assess the effects of different doses (100, 300, and 500 mJ) of low power He–Ne laser (632.8 nm) irradiation on seed germination and thermodynamics attributes and activities of potential germinating enzymes in relation with changes in seed metabolites. He–Ne laser seed irradiation increased the amylase (Amy), protease (Pro) and glucosidase (Gluco) activities, with a significant improvement in seed thermodynamics and seed germination attributes. A fast increase was found in free fatty acids (FFA), free amino acids (FAA), chlorophyll (Chl), carotenoids (Car), total soluble sugars (TSS) and reducing sugars (RS) in laser treated seeds in parallel with fast decline in seed oil contents and total soluble proteins (TSP). Significant positive correlations were recorded in laser-induced enhanced seed energy levels, germination, activities of germination enzymes with levels of FAA, FFA, Chl, TSS and RS, but a negative correlation with the levels of TSP and oil. In conclusion, the seed treatment with 100 and 300 mJ He–Ne laser was more effective to improve the seed germination potential associated with an improvement in seed energy levels due to increased activities of germination enzymes due to the speedy breakdown of seed reserves to simple metabolites as building blocks.

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The Application of Electromagnetic Sensors for Determination of Cherenkov Cone Inside and in the Vicinity of the Detector Volume in Any Environment Known

Sensors ◽

10.3390/s21030992 ◽

2021 ◽

Vol 21 (3) ◽

pp. 992

Author(s):

Valeriu Savu ◽

Mădălin Ion Rusu ◽

Dan Savastru

Keyword(s):

Energy Levels ◽

Cherenkov Detector ◽

Electromagnetic Sensors ◽

The Cost ◽

Information Errors ◽

The Universe ◽

Large Frequency ◽

Very High ◽

Detector Volume

The neutrinos of cosmic radiation, due to interaction with any known medium in which the Cherenkov detector is used, produce energy radiation phenomena in the form of a Cherenkov cone, in very large frequency spectrum. These neutrinos carry with them the information about the phenomena that produced them and by detecting the electromagnetic energies generated by the Cherenkov cone, we can find information about the phenomena that formed in the universe, at a much greater distance, than possibility of actually detection with current technologies. At present, a very high number of sensors for detection electromagnetic energy is required. Thus, some sensors may detect very low energy levels, which can lead to the erroneous determination of the Cherenkov cone, thus leading to information errors. As a novelty, we propose, to use these sensors for determination of the dielectrically permittivity of any known medium in which the Cherenkov detector is used, by preliminary measurements, the subsequent simulation of the data and the reconstruction of the Cherenkov cone, leading to a significant reduction of problems and minimizing the number of sensors, implicitly the cost reductions. At the same time, we offer the possibility of reconstructing the Cherenkov cone outside the detector volume.

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Theoretical progress in the H2+ molecular ion: towards electron to proton mass ratio determinationThis paper was presented at the International Conference on Precision Physics of Simple Atomic Systems, held at École de Physique, les Houches, France, 30 May – 4 June, 2010.

Canadian Journal of Physics ◽

10.1139/p10-065 ◽

2011 ◽

Vol 89 (1) ◽

pp. 103-107 ◽

Cited By ~ 10

Author(s):

J.-Ph. Karr ◽

L. Hilico ◽

V. I. Korobov

Keyword(s):

High Resolution ◽

Mass Ratio ◽

Theoretical Determination ◽

Atomic Systems ◽

The Road ◽

Theoretical Progress ◽

Proton Mass ◽

Accuracy Level ◽

Ratio Determination

High resolution ro-vibrational spectroscopy of H 2+ or HD+ can lead to a significantly improved determination of the electron to proton mass ratio me/mp if the theoretical determination of transition frequencies becomes sufficiently accurate. We report on recent theoretical progress in the description of the hyperfine structure of H 2+ , as well as first steps in the evaluation of radiative corrections at order mα7. Completion of the latter calculation should allow us to reach the projected 10−10 accuracy level and open the road to mass ratio determination.

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Prolonging the lifetime of excited electrons of QDs by capping them with π-conjugated thiol ligands

Journal of Materials Chemistry C ◽

10.1039/c3tc32523g ◽

2014 ◽

Vol 2 (16) ◽

pp. 2939-2943 ◽

Cited By ~ 9

Author(s):

Jie Chang ◽

Hongbo Xia ◽

Suli Wu ◽

Shufen Zhang

Keyword(s):

Energy Levels ◽

Excited Electron ◽

Band Edge ◽

Lumo Energy ◽

Stable Environment ◽

Cdte Qds ◽

Thiol Ligands ◽

New Strategy

A new strategy is reported here to stabilize the excited electrons within QDs using-conjugated ligand. An electron delocalized field is formed by mixing the LUMO energy levels of π-conjugated ligand with conductive band-edge energy (Ecb) of CdTe QDs, which will supply the excited electron with a more stable environment.

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Combined Experimentaland Theoretical Determination of the Atomic Structure of the (310) Twin in NB

MRS Proceedings ◽

10.1557/proc-238-163 ◽

1991 ◽

Vol 238 ◽

Cited By ~ 3

Author(s):

Geoffrey H. Campbells ◽

Wayne E. King ◽

Stephen M. Foiles ◽

Peter Gumbsch ◽

Manfred Rühle

Keyword(s):

High Resolution ◽

Theoretical Models ◽

High Resolution Electron Microscopy ◽

Interatomic Potentials ◽

Image Simulation ◽

Theoretical Determination ◽

Atomic Structures ◽

Resolution Electron ◽

High Resolution Images

ABSTRACTA (310) twin boundary in Nb has been fabricated by diffusion bonding oriented single crystals and characterized using high resolution electron microscopy. Atomic structures for the boundary have been predicted using different interatomic potentials. Comparison of the theoretical models to the high resolution images has been performed through image simulation. On the basis of this comparison, one of the low energy structures predicted by theory can be ruled out.

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