doi:10.24996/ijs.2021.62.5.17

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Publication Date

Sun May 30 2021

Journal Name

Iraqi Journal Of Science

Volume

62

Issue Number

5

DOI

10.24996/ijs.2021.62.5.17

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The dependence of spectral parameters in the cross-sectional equation of coherent and incoherent radiation on energy using a mathematical method

energy

mathematics

cross-sectional

X-ray

elements

Raed Sabeeh

Ilham M.

Muna Y.

Amal M.

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The dependence of the cross-section of the coherent and incoherent radiation peaks in the X-ray absorption experiment of different energies (20-800 Kev) was investigated. Cross-sectional dependence on the atomic number Z was included from the published data for (8) elements, ranging from carbon to silver (C-Ag). The proportional constant K was obtained between (σ_c/σ_i), with the atomic number Z from (6-47). The results show that the value of K exponentially changes with energy.

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Publication Date

Thu Apr 01 2021

Journal Name

Neuroquantology

Finding Most Stable Isobar for Nuclides with Mass Number (165- 175) against Beta Decay

Binding Energy

Liquid Drop Model (LDM)

Bethe-Weizsäcker Semi Empirical Formula

Mass Parabolas

Isobaric Nuclides.

Taghreed

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In the beta decay process, a neutron converts into a proton, or vice versa, so the atom in this process changes to a more stable isobar. Bethe-Weizsäcker used a quasi-experimental formula in the present study to find the most stable isobar for isobaric groups of mass nuclides (A=165-175). In a group of isobars, there are two methods of calculating the most stable isobar. The most stable isobar represents the lowest parabola value by calculating the binding energy value (B.E) for each nuclide in this family, and then drawing these binding energy values as a function of the atomic number (Z) in order to obtain the mass parabolas, the second method is by calculating the atomic number value of the most stable isobar (ZA). The results show

Publication Date

Thu Sep 26 2024

Journal Name

Journal Of Optics

Cysteine-cupped CdSe/CdS quantum dots as an opticalbiosensor for early skin cancer detection

CdSe/CdS quantum dot

Cysteine cupped CdSe/CdS

Deformed DNA

DNA

Energy gap

Optical properties

Skin cancer

Thalfaa

Manal Midhat

Fadhel Mohammed

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This study represents an optical biosensor for early skin cancer detection using cysteine-cupped CdSe/CdS Quantum Dots (QDs). The study optimizes QD synthesis, surface, optical functionalization, and bioconjugation to enhance specificity and sensitivity for early skin cancer cell detection. The research provides insights into QD interactions with skin cancer biomarkers, demonstrating high-contrast, precise cellular imaging. Cysteine-capped CdSe/CdS absorption spectra reveal characteristic peaks for undamaged DNA, while spectral shifts indicate structural changes in skin-cancer-damaged DNA. Additionally, fluorescence spectra show sharp peaks for undamaged DNA and notable shifts and intensity variations when interacting with skin cancer. This

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