An Analytical Study of the Khalafallah's Qur'anic Political Thoughts

Throughout Islamic history, there have been various theories about the relationship between religion and politics, from disagreement to controversy. This debate has also come to the attention of scholars in the modern era after the important event of the abolition of the Ottoman caliphate. Dr. Mohammed Ahmed Khalafallah, as one of the New Mu'tazilis, rejected the relationship in this area, With the layout of the "worldly government" theory. He considered Islam a cultural element Referring to the historical origin of the meanings of the political terminology and neglect the Qur'anic-political theories, the Qur'an being devoid of new political terms and acknowledging the disapproval of the confluence of religion and state in the sacred text with the Shari'ah, He considers the government based on the council (democracy) and his legitimacy depends on it. And by explaining the difference between the "Prophet's position" and the "political power of the Prophet" based on the Qur'an and history, the Prophet's government introduces a civil (not religious) phenomenon that will not continue thereafter. The present study, by descriptive-analytical method, seeks to find out the causes of such ideas in Khalafallah and to explain the impact of three factors of political developments (caliphate crisis - colonialism), scientific (renewal of religious heritage) and cultural (defending Islam and the Prophet (pbuh) against the Western notion) address his thinking

Wavefront-Guided Photorefractive Keratectomy for Correction of Residual Refractive Error after Intacs Implantation in Patients with Keratoconus

Purpose: To evaluate the efficacy of Wavefront-guided photorefractive keratectomy (PRK) for correction of residual refractiveerror after intrastromal corneal ring segments (ICRS) insertion for treatment of keratoconus.Patients and Methods: In this prospective case series five eyes of 5 keratoconus patients who had previous ICRS implantation (four Intacs TM and one Keraring), underwent Wavefront-guided PRK to correct residual refractive error.Results: Three months postoperatively, the mean spherical equivalent (SE) improved from 2.07 ± 1.38 Diopter to - 0.87 ± 0.54 Diopter. Four out of 5 eyes were within ± 1.00 D of Plano refraction. Three eyes had UCVA of 20/30 or better (all eyes; 20/40 or better). After 6 months, the mean SE was - 0.75 ± 0.50 Diopter and all eyes were within ± 1.00 D of Plano refraction. UCVA was 20/20 in 2 eyes, 20/30 or better in 2 eyes and 20/40 in one eye. One patient lost one line of BCVA.Conclusion: This case series showed that wavefront-guided PRK might be an effective procedure for correction of residual refractive error after ICRS insertion in keratoconus patients. Significant improvement in UCVA was seen in all cases after PRK without any complications and haze

The Temporal Confounding Effects of Extra-cerebral Contamination Factors on the Hemodynamic Signal Measured by Functional Near-Infrared Spectroscopy

Introduction: Functional near-infrared spectroscopy (fNIRS) has been broadly applied for optical brain imaging. This method is hemodynamic-based functional brain imaging relying on the measurement of the neurovascular coupling to detect changes in cerebral neuronal activities. The extra-cerebral hemodynamic changes are important contaminating factors in fNIRS measurements. This error signal can be misinterpreted as cerebral activities during fNIRS studies. Recently, it was assumed that temporal changes in deoxygenated hemoglobin concentration [HHb] was hardly affected by superficial blood flow, and it was proposed that the activation maps could be determined from [HHb] at large source-detector separation.Methods: In the current study, we measured the temporal changes in [HHb] using a continues-wave fNIRS device at large source-detector separation, while superficial blood flow was stimulated by infrared lasers. A mesh-based Monte Carlo code was applied to estimate fNIRS sensitivity to superficial hemodynamic changes in a realistic 3D MRI-based brain phantom.Results: First, we simulated photon migration in a four-layered human-head slab model to calculate PPLs and fNIRS sensitivity. Then, the localization of the infrared laser inside a realistic brain model was studied using the Monte Carlo method. Finally, the changes in [HHb] over the prefrontal cortex of six adult males were measured by fNIRS at a source-detector separation of 3 cm. The results demonstrated that the relation between fNIRS sensitivity and an increase in S-D separation was nonlinear and a correlation between shallow and deep signals was observed.Conclusion: The presented results demonstrated that the temporal changes in the superficial blood flow could strongly affect HHb measurement at large source-detector separation. Hence, the cerebral activity map extracted from the [HHb] signal was mainly contaminated by superficial blood flow

Calculation of Real Evapotranspiration by the Application of Metric Method on Landsat-8 Data

In geological remote sensing approaches for estimating evapotranspiration, METRIC method is among the most modern and precise approaches that many positive experiments have been reported regarding its applicability. In this study, the value of actual evapotranspiration (ET) occurred in Marvdasht farmlands, Fars province, Iran, was calculated instantaneously (hourly) and daily (24 hours), at 24 April 2017 using METRIC method and Lansat-8 data. In order to accuracy assessment of the results, estimated values were compared to the values calculated with Penman Monteith method in places that covers by alfafa crop. Our observations showed that ET values obtained via METRIC model on average, have 0.51mm difference in estimations, comparing to the Penman Manteith method

Facile preparation of a nanostructured functionalized catalytically active organosalt

We report a novel nanostructured organosalt, based on sulfonic acid functionalized pyrazinium {[H-pyrazine–SO3H]Cl2} that was synthesized and characterized by several techniques including Fourier transform infrared (FT- IR) spectroscopy, X-ray diffraction (XRD), thermal gravimetric analysis (TGA), differential thermal gravimetric (DTG) analysis, transmission electron microscopy (TEM), mass spectrometry (MS), proton NMR (1H NMR), carbon-13 NMR (13C NMR) and also electron diffraction (ED) patterns. Results proved that the unprecedented sulfonated pyrizinium organosalt is indeed nanostructured and highly crystalline as supported by TEM, ED and XRD studies, having an average nanoparticle size of 50 nm according to TEM micrographs. The novel nano- organocatalyst was proved to be an efficient catalyst in the synthesis of 1,2,4,5-tetrasubstituted imidazoles by a one-pot multi-component condensation of benzil, a broad range of aldehydes, primary amines and ammonium acetate at 90 °C under solvent-free conditions