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2. Dynamics of hospital mortality in COVID-19 pandemia

Author

Diana F. Gareeva, Irina A. Lakman, Alexander A. Agapitov, Liana F. Sadikova, Paruir A. Davtian, Valeriia L. Kayumova, Guzel M. Nurtdinova, Elena A. Badykova, Magomed S. Kurbanov, Islam R. Idigov, Lukas Fiedler, Lukas-Jaroslaw Motloch, Аnna-Maria Dieplinger, Venera M. Timiryanova, and Naufal Sh. Zagudullin

Subjects
covid-19, sars-cov-2, alpha, delta, omicron, hospital mortality, Medicine
Abstract

Background. During the pandemic of coronavirus infection (COVID-19) caused by a virus SARS-CoV-2 there has been significant variability in symptoms of the disease over time, severity of the course and in particular hospital mortality. Several SARS-CoV-2 variants have been identified such as Alpha, Delta, Omicron and others. Aim. To investigate the hospital mortality in patients with different strain variants during the period from April 2020 to April 2022. All included patients had moderate to severe COVID-19-associated pneumonia requiring hospitalization. Materials and methods. In this retrospective, conclusive, non-randomized, non-controlled study 4854 clinical records of hospitalized patients with Alpha (n=2400, April – December 2020), Delta (n=1722, 2021) and Omicron (n=627, January – April 2022) variants were investigated. Results. Hospital mortality is 6% in Alpha variant patients (6%), 5.7% in Delta and significantly lower in Omicron (1.5%; p0,001). Cardiovascular disease (arterial hypertension, coronary heart disease, chronic heart failure), diabetes mellitus and chronic kidney disease were risk factors for death in Alpha and Delta, but not in Omicron. There was also a significant decrease in the duration of hospitalization with strains Delta [7 days (5; 9)] and Omicron [7 (5; 11)] compared with Alpha [11 (9; 13); p0,001], and differences in factors the risk of mortality between the tested COVID variants. Conclusion. Thus, differences in mortality and risk factors for death between COVID-19 variants could be shown in our cohort.

Published
2024
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3. Pharmacokinetics, pharmacodynamics, safety and tolerability of cilofexor, a novel nonsteroidal Farnesoid X receptor agonist, in healthy volunteers

Author

Islam R. Younis, Brian J. Kirby, Andrew N. Billin, Deqing Xiao, Qinghua Song, Timothy R. Watkins, and Ahmed A. Othman

Subjects
Therapeutics. Pharmacology, RM1-950, Public aspects of medicine, RA1-1270
Abstract

Abstract Cilofexor is a nonsteroidal farnesoid X receptor (FXR) agonist being evaluated for treatment of nonalcoholic steatohepatitis (NASH) and primary sclerosing cholangitis (PSC). This work characterized the pharmacokinetics, pharmacodynamic, safety, and tolerability of cilofexor in healthy participants. Cilofexor single and multiple once‐daily doses (10 to 300 mg fasting or fed and twice‐daily doses [15 and 50 mg; fed]; tablet formulation) were evaluated. In each cohort, participants were randomized to active drug or placebo in a 4:1 ratio (planned n = 15/cohort). Multiple dosing was for 14 days. Pharmacokinetic and pharmacodynamic samples were collected and safety and tolerability were assessed. Overall, 120 participants were enrolled in the study and 118 participants received at least one dose of study drug. Cilofexor pharmacokinetics followed bi‐exponential disposition and its exposure increased in a less‐than‐dose‐proportional manner over the 10 to 300 mg dose range, with no significant accumulation with repeated dosing. Moderate‐fat meal reduced cilofexor area under the plasma concentration versus time curve (AUC) by 21% to 45%. Cilofexor increased plasma levels of fibroblast growth factor19 (FGF19) and reduced the serum bile acid intermediate 7α‐hydroxy‐4‐cholesten‐3‐one (C4) and bile acids in an exposure‐dependent manner. Cilofexor doses >30 mg appeared to achieve the plateau of intestinal FXR activation. Cilofexor was generally well tolerated; all treatment‐emergent adverse events (TEAEs) were mild or moderate in severity, with headache being the most frequently observed TEAE. The pharmacokinetics pharmacodynamic safety, and tolerability results from this study supported further evaluations, and informed dose selection, of cilofexor in phase II studies in patients with NASH and PSC.

Published
2023
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4. Endoscopic Orientation of Juxta-pituitary Carotid in Transsphenoidal Approaches: Critical Considerations for Clinical Applications

Author

Mostafa Ismail, Mohab Darwish, Abd El Rahman El Tahan, and Islam R. Herzallah

Subjects
cadaveric study, internal carotid artery, lateral opticocarotid recess, pituitary gland, transsphenoidal approach, Medicine, Otorhinolaryngology, RF1-547
Abstract

Introduction In sphenoid sinuses with ill-defined carotid bony landmarks, accidental injury of the internal carotid artery (ICA) remains one of the most challenging complications, which is particularly reported in the endoscopic endonasal transsphenoidal approaches (EETAs).

Published
2023
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5. Steric and Energetic Studies on the Synergetic Enhancement Effect of Integrated Polyaniline on the Adsorption Properties of Toxic Basic and Acidic Dyes by Polyaniline/Zeolite-A Composite

Author

Ayah T. Zaidalkilani, Amna M. Farhan, Islam R. Sayed, Ahmed M. El-Sherbeeny, Wail Al Zoubi, Ammar Al-Farga, and Mostafa R. Abukhadra

Subjects
zeolite-A, polyaniline, synthetic dyes, equilibrium, steric, energetic, Organic chemistry, QD241-441
Abstract

The synergetic enhancement effect of the polyaniline (PANI) integration process on the adsorption properties of the PANI/zeolite-A composite (PANI/ZA) as an adsorbent for malachite green and Congo red synthetic dyes was evaluated based on classic equilibrium modelling in addition to the steric and energetic parameters of advanced isotherm studies. The PANI/ZA composite displays enhanced adsorption capacities for both methylene blue (270.9 mg/g) and Congo red (235.5 mg/g) as compared to ZA particles (methylene blue (179.6 mg/g) and Congo red (140.3 mg/g)). The reported enhancement was illustrated based on the steric parameters of active site density (Nm) and the number of adsorbed dyes per active site (n). The integration of PANI strongly induced the quantities of the existing active sites that have enhanced affinities towards both methylene blue (109.2 mg/g) and Congo red (92.9 mg/g) as compared to the present sites on the surface of ZA. Every site on the surface of PANI/ZA can adsorb about four methylene blue molecules and five Congo red molecules, signifying the vertical orientation of their adsorbed ions and their uptake by multi-molecular mechanisms. The energetic investigation of the methylene blue (−10.26 to −16.8 kJ/mol) and Congo red (−9.38 to −16.49 kJ/mol) adsorption reactions by PANI/ZA suggested the operation of physical mechanisms during their uptake by PANI/ZA. These mechanisms might involve van der Waals forces, dipole bonding forces, and hydrogen bonding (

Published
2023
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6. Bilateral Simultaneous Endoscopic Dacryocystorhinostomy: Outcome and Impact on the Quality of Life of the Patients

Author

Islam R. Herzallah, Osama A. Marglani, Ameen Z. Alherabi, Nuha S. Faraj, and Deemah H. Bukhari

Subjects
dacryocystorhinostomy, epiphora, dacryocystitis, nasolacrimal duct, lacrimal sac, quality of life, endoscopic dcr, Medicine, Otorhinolaryngology, RF1-547
Abstract

Abstract Introduction Bilateral simultaneous endoscopic dacryocystorhinostomy (endo-DCR) has received little attention in the literature, thus many surgeons continue to address bilateral nasolacrimal duct obstruction at two stages, rather than in the same setting. Objective To evaluate the feasibility and the outcome of simultaneous bilateral Endo-DCR and its impact on the quality of life of the patients. Methods We have conducted a retrospective analysis of patients who underwent bilateral simultaneous endo-DCR between March 2013 and February 2017 at our tertiary care institution. The reviewed data included clinical presentation; operative details; success rate; pre and postoperative evaluation of the symptoms of the patients, using the Nasolacrimal Duct Obstruction Symptom Score Questionnaire; satisfaction of the patients, and improvement in the quality of life, assessed by the Glasgow Benefit Inventory (GBI) questionnaire. Results Out of 128 cases in which endo-DCRs were performed, 13 were bilateral (26 sides). Postoperative success was documented in 24 of the 26 sides (92.3%), with a mean follow-up duration of 16.2 months. The two failed sides were reported in the same case. The preoperative symptom score ranged between 12 and 80 (mean ± standard deviation [SD]: 38.23 ± 15.7). The postoperative symptom score was significantly lower (mean ± SD: 5.4 ± 12.9). The success rates in unilateral and bilateral cases were comparable, with no statistically significant difference. A notable improvement in the quality of life of the patients was also reported, with a mean GBI score of 81.38 ± 12.37. Conclusion Our results support that a simultaneous bilateral endo-DCR is a safe procedure that offers a high success rate, spares the patient from the stress of a second surgery, provides the patient with a bilateral resolution of the symptoms, and confers an immediate improvement in the quality of life of the patients.

Published
2019
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9. Ultrastructure Traits and Genetic Variability of Red Palm Weevil Rhynchophorus ferrugineus (Olivier) Adults from Different Geographical Locations in Egypt

Author

Islam R. M. El-Zoghby, Nabil S. Awad, Abeer Mousa Alkhaibari, and Naglaa F. Abdel-Hameid

Subjects
Rhynchophorus ferrugineus, scanning electronic microscopy, DNA marker, biodiversity, Biology (General), QH301-705.5
Abstract

The Red Palm Weevil (RPW) is one of the most damaging pests to palm cultivation; this invasive weevil poses a threat to the palm industry. The characterization and identification of this pest in order to determine its biological diversity is the first step in controlling it, which will help in developing effective control programs. The purpose of this study is to investigate the biodiversity of and characterize RPW from five different Egyptian geographical locations at morphological and genetic levels using morphometric analysis, scanning electronic microscopy and two different genetic markers. Our results revealed no significant differences between length and width of the adult body among RPW adults from different geographical locations. Different typologies of prothoracic spots were observed, indicating a degree of diversity in the RPW populations. The magnitude of the different body parts was measured among both males and females. Significant differences were exhibited between length of the antennal seta, as well as forelegs, the lengths and widths of the pronotum, and the rostrum length between both sexes. Both RAPD and ISSR used DNA markers, generating reproducible and distinct banding patterns. The polymorphic banding patterns that have resulted from all studied populations confirmed that these markers demonstrate genetic variability amongst the studied Egyptian populations of Rhynchophorus ferrugineus. The recorded differences may be due to the presence of different red palm weevil genotypes. The obtained results might have potential applications in developing a new tracking and control strategy for this invasive pest.

Published
2022
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10. Outcome and Complications of Frontal Sinus Stenting: A Case Presentation and Literature Review

Author

Mohammed A. Khan, Waleed A. Alshareef, Osama A. Marglani, and Islam R. Herzallah

Subjects
Otorhinolaryngology, RF1-547
Abstract

Introduction. Frontal sinus surgery remains challenging to manage because of its complex anatomy and narrow outflow tract. A number of studies suggest the success of frontal sinus stenting to reduce postoperative complications in endoscopic frontal sinus surgery. However, failure and complications of frontal sinus stenting may occur. Method. We present a case of frontal sinus stenting with migration of the stent and erosion of the lamina papyracea together with a granulomatous reaction around the stent. PubMed and Medline search was also conducted to study the current evidence on frontal sinus stenting benefits and complications. Results. Still there are no guidelines or universally accepted indications for the use of frontal sinus stenting in the literature. A limited number of studies suggest the success of frontal sinus stenting to reduce postoperative stenosis in endoscopic frontal sinus surgery. However, failure and complications of frontal sinus stenting may occur. Infection, pain, edema, and stent obstruction may also occur. Our case report also highlights the potential of orbital complications as well as the consequences of inducing a granulomatous reaction. Conclusion. The value of frontal sinus stenting is still a subject of debate. Complications of frontal sinus stenting are not uncommon and thus necessitate regular follow-up.

Published
2020
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11. Ab-initio insights into the mechanical, phonon, bonding, electronic, optical and thermal properties of hexagonal W2N3 for potential applications

Author

Ahmed, Istiak, Parvin, F., Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Materials Science
Abstract

We investigated the structural, elastic, electronic, vibrational, optical, thermodynamic and a number of thermophysical properties of W2N3 in this study using DFT based formalisms. The mechanical and dynamical stabilities have been confirmed. The Pugh and Poisson ratios are located quite close to the brittle to ductile borderline. The electronic band structure and energy density of states show metallic behavior. The Fermi surface features are investigated. The analysis of charge density distribution map clearly shows that W atoms have comparatively high electron density around than the N atoms. Presence of covalent bondings are anticipated. High melting temperature and high phonon thermal conductivity at room temperature of W2N3 imply that the compound has potential to be used as a heat sink system. The optical characteristics demonstrate anisotropy for W2N3. The compound can be used in optoelectronic device applications due to its high absorption coefficient and low reflectivity in the visible to ultraviolet spectrum. Furthermore, the quasiharmonic Debye model is used to examine temperature and pressure dependent thermal characteristics for the first time., Comment: Submitted to Journal of Alloys and Compounds

Published
2024

12. Malicious Package Detection using Metadata Information

Author

Halder, S., Bewong, M., Mahboubi, A., Jiang, Y., Islam, R., Islam, Z., Ip, R., Ahmed, E., Ramachandran, G., and Babar, A.

Subjects
Computer Science - Cryptography and Security
Abstract

Protecting software supply chains from malicious packages is paramount in the evolving landscape of software development. Attacks on the software supply chain involve attackers injecting harmful software into commonly used packages or libraries in a software repository. For instance, JavaScript uses Node Package Manager (NPM), and Python uses Python Package Index (PyPi) as their respective package repositories. In the past, NPM has had vulnerabilities such as the event-stream incident, where a malicious package was introduced into a popular NPM package, potentially impacting a wide range of projects. As the integration of third-party packages becomes increasingly ubiquitous in modern software development, accelerating the creation and deployment of applications, the need for a robust detection mechanism has become critical. On the other hand, due to the sheer volume of new packages being released daily, the task of identifying malicious packages presents a significant challenge. To address this issue, in this paper, we introduce a metadata-based malicious package detection model, MeMPtec. This model extracts a set of features from package metadata information. These extracted features are classified as either easy-to-manipulate (ETM) or difficult-to-manipulate (DTM) features based on monotonicity and restricted control properties. By utilising these metadata features, not only do we improve the effectiveness of detecting malicious packages, but also we demonstrate its resistance to adversarial attacks in comparison with existing state-of-the-art. Our experiments indicate a significant reduction in both false positives (up to 97.56%) and false negatives (up to 91.86%).

Published
2024
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13. DFT based investigation of structural, elastic, optoelectronic, thermophysical and superconducting state properties of binary Mo3P at different pressures

Author

Rana, Md. Sohel, Ahmed, Razu, Islam, Md. Sajidul, Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

In recent years, the investigation of novel materials for various technological applications has gained much importance in materials science research. Tri-molybdenum phosphide (Mo3P), a promising transition metal phosphide (TMP), has gathered significant attention due to its unique structural and electronic properties, which already make it potentially valuable system for catalytic and electronic device applications. Through an in-depth study using the density functional theory (DFT) calculations, this work aims to clarify the basic properties of the Mo3P compound at different pressures. In this work, we have studied the structural, elastic, optoelectronic and thermophysical properties of binary Mo3P compound. In this investigation, we varied uniform hydrostatic pressure from 0 GPa to 30 GPa. A complete geometrical optimization for structural parameters is performed and the obtained values are in good accord with the experimental values where available. It is also found that Mo3P possesses very low level of elastic anisotropy, reasonably good machinability, ductile nature, relatively high Vickers hardness, high Debye temperature and high melting temperature. Thermomechanical properties indicate that the compound has potential to be used as a thermal barrier coating material. The bonding nature in Mo3P has been explored. The electronic band structure shows that Mo3P has no band gap and exhibits conventional metallic behavior. All of the energy dependent optical characteristics demonstrate apparent metallic behavior and agree exactly with the electronic density of states calculations. The compound has excellent reflective and absorptive properties suitable for optical applications. Pressure dependent variations of the physical properties are explored and their possible link with superconductivity has been discussed.

Published
2023

14. Precise Identification of Prostate Cancer from DWI Using Transfer Learning

Author

Islam R. Abdelmaksoud, Ahmed Shalaby, Ali Mahmoud, Mohammed Elmogy, Ahmed Aboelfetouh, Mohamed Abou El-Ghar, Moumen El-Melegy, Norah Saleh Alghamdi, and Ayman El-Baz

Subjects
prostate cancer, transfer learning, ALexNet, VGGNet, ADC maps, Chemical technology, TP1-1185
Abstract

Background and Objective: The use of computer-aided detection (CAD) systems can help radiologists make objective decisions and reduce the dependence on invasive techniques. In this study, a CAD system that detects and identifies prostate cancer from diffusion-weighted imaging (DWI) is developed. Methods: The proposed system first uses non-negative matrix factorization (NMF) to integrate three different types of features for the accurate segmentation of prostate regions. Then, discriminatory features in the form of apparent diffusion coefficient (ADC) volumes are estimated from the segmented regions. The ADC maps that constitute these volumes are labeled by a radiologist to identify the ADC maps with malignant or benign tumors. Finally, transfer learning is used to fine-tune two different previously-trained convolutional neural network (CNN) models (AlexNet and VGGNet) for detecting and identifying prostate cancer. Results: Multiple experiments were conducted to evaluate the accuracy of different CNN models using DWI datasets acquired at nine distinct b-values that included both high and low b-values. The average accuracy of AlexNet at the nine b-values was 89.2±1.5% with average sensitivity and specificity of 87.5±2.3% and 90.9±1.9%. These results improved with the use of the deeper CNN model (VGGNet). The average accuracy of VGGNet was 91.2±1.3% with sensitivity and specificity of 91.7±1.7% and 90.1±2.8%. Conclusions: The results of the conducted experiments emphasize the feasibility and accuracy of the developed system and the improvement of this accuracy using the deeper CNN.

Published
2021
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16. Community perceptions of a rural medical school: a pilot qualitative study

Author

Nestel D, Gray K, Simmons M, Pritchard SA, Islam R, Eng WQ, Ng A, and Dornan T

Subjects
Special aspects of education, LC8-6691, Medicine (General), R5-920
Abstract

Debra Nestel,1 Katherine Gray,1 Margaret Simmons,1 Shane A Pritchard,1 Rumana Islam,1 Wan Q Eng,1 Adrian Ng,1 Tim Dornan2 1Gippsland Medical School/School of Rural Health, Monash University, Clayton, Australia; 2School of Health Professions Education, Maastricht University, Maastricht, the Netherlands Background: This paper explores local community perceptions of a relatively new rural medical school. For the purposes of this paper, community engagement is conceptualized as involvement in planning, delivering, and evaluating the medical program. Although there are several reviews of patient involvement in medical curricula development, this study was designed to pilot an approach to exploring the perspectives of well members of the community in the transition of institutional policy on community engagement to one medical school. Methods: An advertisement in the local newspaper invited volunteers to participate in a telephone interview about the new medical school. An independent researcher external to the medical school conducted the interviews using a topic guide. Audio recordings were not made, but detailed notes including verbatim statements were recorded. At least two research team members analyzed interview records for emergent themes. Human research ethics approval was obtained. Results: Twelve interviews were conducted. Participants offered rich imaginings on the role of the school and expectations and opportunities for students. Most participants expressed strong and positive views, especially in addressing long-term health workforce issues. It was considered important that students live, mix, and study in the community. Some participants had very clear ideas about the need of the school to address specified needs, such as indigenous health, obesity, aging, drug and alcohol problems, teenage pregnancy, ethnic diversity, and working with people of low socioeconomic status. Conclusion: This study has initiated a dialogue with potential partners in the community, which can be built upon to shape the medical school's mission and contribution to the society it serves. The telephone interview approach and thematic analysis yielded valuable insights and is recommended for further studies. Our study was limited by its small study size and the single recruitment source. The community is a rich resource for medical education, but there is a dearth of literature on the perspectives of the community and its role in medical education. Keywords: community engagement, medical education, medical school, community-based education, rural, curriculum development

Published
2014

17. Interrelations among critical current density, irreversibility field and pseudogap in hole doped high-Tc cuprates

Author

Naqib, S. H. and Islam, R. S.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

The effects of hole content (p) and oxygen deficiency (delta) on the zero-field critical current density, Jc0, were investigated for high-quality c-axis oriented Y1-xCaxBa2Cu3O7-delta (x = 0, 0.05, 0.10, and 0.20) thin films. Low temperature critical current density of these films above the optimum doping were found to be high and were primarily determined by the hole concentration, reaching a maximum at p ~ 0.185 +/- 0.005, irrespective of the level of oxygen deficiency. This implies that oxygen disorder plays only a secondary role and the intrinsic Jc0 is primarily governed by the carrier concentration in the copper oxide planes. Further support in favor of this was found from the analysis of the in-plane resistive transitions of c-axis oriented crystalline thin films of YBa2Cu3O7-delta (YBCO) under magnetic fields (H) applied along the c-direction, over a wide range of doped holes. The characteristic magnetic field (H0), linked to the vortex activation energy and the irreversibility field, exhibits similar p-dependence as shown by Jc0(p). We have explained these observations in terms of the doping dependent pseudogap (PG) in the low-energy electronic energy density of states. Both the intrinsic critical current density and the irreversibility field depend directly on the superconducting condensation energy, which in turn is largely controlled by the magnitude of the hole concentration dependent PG in the quasiparticle spectral density., Comment: Submitted to Superconductivity

Published
2022
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18. A comparative study of the structural, elastic, thermophysical, and optoelectronic properties of CaZn$_2$X$_2$ (X = N, P, As) semiconductors via ab-initio approach

Author

Islam, Md. Sajidul, Ahmed, Razu, Mahamudujjaman, Md., Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Materials Science
Abstract

We present a detailed density functional theory based calculations of the structural, elastic, lattice dynamical, thermophysical, and optoelectronic properties of ternary semiconductors CaZn$_2$X$_2$ (X = N, P, As) in this paper. The obtained lattice parameters are in excellent agreement with the experimental values and other theoretical findings. These elastic constants satisfy the mechanical stability criteria. Moreover, many thermophysical parameters of these compounds are estimated, including the Debye temperature, average sound velocity, melting temperature, heat capacity, lattice thermal conductivity, etc. The comprehensive analysis of the elastic constants and moduli show that CaZn$_2$X$_2$ compounds possess reasonably good machinability, relatively high Vickers hardness and relatively low Debye temperature. The phonon dispersion curves and phonon density of states are investigated for the first time for the compounds CaZn$_2$P$_2$ and CaZn$_2$As$_2$. It is observed from the phonon dispersion curves that the bulk CaZn$_2$X$_2$ (X = N, P, As) compounds are dynamically stable. Electronic properties have been studied through the band structures and electronic energy density of states. The electronic band structures show that CaZn$_2$N$_2$ and CaZn$_2$As$_2$ possess direct band gaps while the compound CaZn$_2$P$_2$ show indirect band gap. The bonding characters of CaZn$_2$X$_2$ (X = N, P, As) compounds are investigated. Energy dependent optical parameters exhibit good correspondence with the electronic energy density of states features. We have thoroughly discussed the reflectivity, absorption coefficient, refractive index, dielectric function, optical conductivity and loss function of these semiconductors. The optical absorption, reflectivity spectra and the refractive index of CaZn$_2$X$_2$ (X = N, P, As) show that the compounds hold promise to be used in optoelectronic devices.

Published
2022

19. Pressure-dependent semiconductor-metal transition and elastic, electronic, optical, and thermophysical properties of SnS binary chalcogenide

Author

Tasnim, Ayesha, Mahamudujjaman, Md., Afzal, Md. Asif, Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Materials Science
Abstract

Density functional theory based study of the pressure dependent physical properties of binary SnS compound has been carried out. The computed elastic constants reveal that SnS is mechanically stable and brittle under ambient conditions. With increasing pressure, the compound becomes ductile. The Poisson's ratio also indicates brittle-ductile transition with increasing pressure. The hardness of SnS increases significantly with pressure. The compound possesses elastic anisotropy. The ground state electronic band structure is semiconducting with a small band gap which becomes metallic under pressure. The band becomes more and more dispersive with the increase in pressure while the electronic correlations decrease as pressure is raised. Both the Debye temperature and the phonon thermal conductivity of SnS increase sharply with pressure. The Melting temperature of the compound is low. Mixed bonding characteristics are found with ionic and covalent contributions. SnS is a good absorber of ultraviolet light. The reflectivity of the material increases with the increase in pressure. The reflectivity is nonselective over a wide spectral range. The low energy refractive index is high. All these optical characteristics are useful for prospective optoelectronic device applications. The optical anisotropy is low.

Published
2022

20. Comparative analysis of physical properties of some binary transition metal carbides XC (X = Nb, Ta, Ti): Insights from a comprehensive ab-initio study

Author

Ahmed, Razu, Mahamudujjaman, Md., Afzal, Md. Asif, Islam, Md. Sajidul, Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Materials Science
Abstract

Binary metallic carbides belong to a technologically prominent class of materials. We have explored the structural, mechanical, electronic, optical, and some thermophysical properties of XC (X = Nb, Ta, Ti) binary metallic carbides in details employing first-principles method. Some of the results obtained are novel. A comparative analysis has been made.

Published
2022

21. Solid State Detectors and Tracking for Snowmass

Author

Affolder, A., Apresyan, A., Worm, S., Albrow, M., Ally, D., Ambrose, D., Anderssen, E., Apadula, N., Asenov, P., Armstrong, W., Artuso, M., Barbier, A., Barletta, P., Bauerdick, L., Berry, D., Bomben, M., Boscardin, M., Brau, J., Brooks, W., Breidenbach, M., Buckley, J., Cairo, V., Caputo, R., Carpenter, L., Centis-Vignali, M., Cerullo, M., Collu, A., Chlebana, F., Dalla-Betta, G. -F., Demarteau, M., Deptuch, G., Di Petrillo, K., D'Amen, G., Dragone, A., Fourches, N. T., Garcia-Sciveres, M., Giacomini, G., Gingu, C., Graf, N., Grace, C., Griso, S., Greiner, L., Haber, C., Haller, G., Harris, K., Heim, T., Heinz, U., Heller, R., Hedges, M. T., Herbst, R., Hoeferkamp, M. R., Holmes, T., Holland, S. E., Hsu, S. -C., Islam, R., Jadhav, M., Jindariani, S., Joosten, S., Jung, A., Karmarkar, S., Kenney, C., Kierans, C., Kim, J., Kim, S., Klein, S., Koshy, A., Krizka, K., Lai, A., Lee, L., Linssen, L., Lipton, R., Liu, T., Madrid, C., Mahajan, T., Markiewicz, T., Markovic, B., Mazza, S., Mazziotta, M., Mei, Y., Merkel, P., Metcalfe, J., Meziani, Z. -E., Minns, A., Moscatelli, F., Murat, P., Muth, J., Nachman, B., Nahn, S., Narain, M., Narayanan, E. A., Nelson, T., Nielsen, J., Oktyabrsky, S., Ott, J., Palomo, F. R., Passeri, D., Patti, R., Peltola, T., Pena, C., Peng, C., Renard, C., Reimer, P., Rogan, C., Rota, L., Sadrozinski, H., Segal, J., Schwartzman, A., Schumm, B., Scott, M., Seidel, S., Seiden, A., Sekely, B., Shi, X., Sichtermann, E., Sinev, N., Sonneveld, J., Spiegel, L., Steinhebel, A., Strom, D., Sultan, D. M. S., Sumant, A., Tokranov, V., Tricoli, A., Trischuk, W., Tumasyan, A., Uplegger, L., Vernieri, C., Wang, H., Wagenknecht, P., Weber, H., Xie, S., Yakimov, M., Ye, Z., Young, C., and Zurek, M.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

Tracking detectors are of vital importance for collider-based high energy physics (HEP) experiments. The primary purpose of tracking detectors is the precise reconstruction of charged particle trajectories and the reconstruction of secondary vertices. The performance requirements from the community posed by the future collider experiments require an evolution of tracking systems, necessitating the development of new techniques, materials and technologies in order to fully exploit their physics potential. In this article we summarize the discussions and conclusions of the 2022 Snowmass Instrumentation Frontier subgroup on Solid State and Tracking Detectors (Snowmass IF03)., Comment: for the Snowmass Instrumentation Frontier Solid State Detector and Tracking community

Published
2022

22. Ethnicity-specific BRCA1, BRCA2, PALB2, and ATM pathogenic alleles in breast and ovarian cancer patients from the North Caucasus

Author

Sokolenko, Anna P., Bakaeva, Elvina Kh., Venina, Aigul R., Kuligina, Ekaterina Sh., Romanko, Alexandr A., Aleksakhina, Svetlana N., Belysheva, Yana V., Belogubova, Evgeniya V., Stepanov, Ilya A., Zaitseva, Olga A., Yatsuk, Olga S., Togo, Alexandr V., Khamgokov, Zaur M., Kadyrova, Azinat O., Pirmagomedov, Albert Sh., Bolieva, Marina B., Epkhiev, Alexandr A., Tsutsaev, Aslan K., Chakhieva, Madina D., Khabrieva, Khalimat M., Khabriev, Idris M., Murachuev, Mirza A., Buttaeva, Bella N., Baboshkina, Liliya S., Bayramkulova, Fatima I., Katchiev, Islam R., Alieva, Lina Kh., Raskin, Grigory A., Orlov, Sergey V., Khachmamuk, Zarema K., Levonyan, Karine R., Gichko, Dariya M., Kirtbaya, Dmitriy V., Degtyariov, Alexey M., Sultanova, Luisa V., Musayeva, Hedi S., Belyaev, Alexey M., and Imyanitov, Evgeny N.

Published
2024
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23. Integration and Packaging

Author

Mazza, S., Lipton, R., Patti, R., and Islam, R.

Subjects
High Energy Physics - Experiment
Abstract

Vertically integrated (3D) combinations of sensors and electronics provide the ability to fabricate small, fine pitch pixels with very small total capacitance monolithically integrated with complex circuitry. The small capacitance, enabled by the fine pixel pitch and low interconnect capacitance available in 3D hybrid bonding, provides excellent signal/noise with moderate power. This combination enables fabrication of integrated sensors and electronics with both excellent position and time resolution. In this white paper a discussion will be presented on 3D integration advantages, ongoing projects and prospects in high energy physics and beyond., Comment: contribution to Snowmass 2021

Published
2022

25. First-principles prediction of pressure dependent mechanical, electronic, optical, and superconducting state properties of NaC6: A potential high-Tc superconductor

Author

Khan, Nazmun Sadat, Rano, B. Rahman, Syed, Ishtiaque M., Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

Very recently carbon-rich NaC6 with sodalite-like structure has been predicted to show superconducting transition temperature above 100 K at relatively low applied (compared to high-Tc hydrides) hydrostatic pressures. We have investigated the pressure dependent structural, elastic, electronic, superconducting state, and optoelectronic properties of NaC6 in this study. Some important thermophysical properties have also been explored. The elastic properties along with Poisson's and Pugh's ratios and optoelectronic parameters are investigated for the first time. NaC6 was found to be structurally stable only at high pressures at and above 40 GPa, in agreement with previous study. The compound is highly ductile and the chemical bonding is predominantly metallic in nature. The Debye temperature shows strong pressure dependence. The Gruneisen parameter also exhibits significant pressure dependence. The electronic band structure reveals metallic character and consists of highly dispersive and almost flat bands crossing the Fermi level. Both the electronic density of states at the Fermi level and repulsive Coulomb pseudopotential increase gradually with increasing pressure in the range 40 GPa to 70 Gpa. The degree of dispersion in the E(k) curves depend weakly on pressure both in the valence and conduction bands. The optical parameters spectra, studied for the first time, correspond well with the electronic band structure. NaC6 absorbs and reflects electromagnetic radiation quite efficiently in the mid-ultraviolet region. Superconducting transition temperatures of NaC6 have been estimated at different pressures and compared with previously reported values. The effects of various parameters on Tc have been discussed in details., Comment: Submitted for publication

Published
2021

26. Ab-initio insights into the elastic, bonding, phonon, optoelectronic and thermophysical properties of SnTaS2

Author

Naher, M. I., Mahamudujjaman, M., Tasnim, A., Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Superconductivity
Abstract

SnTaS2 is a recently discovered layered semimetal exhibiting type-II low transition temperature superconductivity. Except some superconductivity related parameters, most of the physical properties, namely, elastic, mechanical, bonding, phonon dispersion, acoustic, thermophysical, and optical properties of SnTaS2 are unexplored till now. In this study, we have investigated these hitherto unexplored properties of SnTaS2 for the first time employing density functional theory (DFT) based first-principles method. SnTaS2 is a mechanically stable, elastically anisotropic compound with strongly layered feature. The bond hardness and Vickers hardness have been calculated. The material under study is ductile, soft and highly machinable. The chemical bonding feature has mixed character with significant contribution coming from the ionic channel. Phonon dispersion curves disclose dynamical stability. Electronic band structure calculations show simple metallic character. The Fermi surface consists of both electron-like and hole-like sheets with varying degrees of dispersion. The low energy (including visible part of the spectrum) refractive index of SnTaS2 is high. The reflectivity is fairly nonselective over a wide range of photon energy and the absorption coefficient is large in the mid ultraviolet region. The Debye temperature and thermal conductivity of SnTaS2 are low. The electron-phonon coupling constant has been calculated. The compound under study possesses optical anisotropy with respect to the polarization direction of the incident electric field.

Published
2021
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28. Hole content dependent fluctuation diamagnetism in YBa2Cu3O7-{\delta}: possible role of the pseudogap

Author

Borna, Ayesha Siddika, Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Superconductivity
Abstract

This study focuses on the temperature and hole content dependent fluctuation diamagnetism of hole doped YBa2Cu3O7-delta (Y123) high-Tc superconductors. Two different compositions of Y123 have been considered with in-plane hole content (p): 0.161 (optimally doped) and 0.143 (underdoped). The fluctuation induced excess diamagnetic susceptibility, Delta_chi(T), has been investigated via the mean-field Gaussian-Ginzburg-Landau (MFGGL) formalism with and without a total energy cut-off in the fluctuating modes. It has been found that inclusion of total energy cut-off describes the Delta_chi(T) data significantly better. Furthermore, the pseudogap (PG) itself induces an anomalous decrease in the normal state magnetic susceptibility. By means of the analysis of Delta_chi(T)/T at different hole concentrations, we have explored the possible role of the PG on diamagnetic fluctuations. It has been found that MFGGL formalism is not able to reproduce the Delta_chi(T)/T features for the underdoped compound over a broad range of reduced temperature, Epsilon [= ln(T/Tc)]. The discrepancy becomes prominent in the temperature range where PG dominates the normal state magnetic susceptibility data. The agreement between the theoretical prediction and experimental Delta_chi(T) is better for the optimally doped compound with p = 0.161, where the effect of the PG is small. This notable difference implies that PG induced reduction in the magnetic susceptibility is not related directly to the superconducting fluctuations which in turn indicate that electronic correlations giving rise to the PG and Cooper pairing are independent to each other., Comment: Submitted for publication

Published
2021

29. Structural, elastic, bonding, optoelectronic, and some thermo-physical properties of transition metal dichalcogenides ZrX2 (X = S, Se, Te): Insights from ab-initio calculations

Author

Mahamudujjaman, Md., Afzal, Md. Asif, Islam, R. S., and Naqib, S. H.

Subjects
Condensed Matter - Materials Science
Abstract

Transition metal dichalcogenides (TMDCs) belong to technologically important compounds. We have explored the structural, elastic, bonding, optoelectronic and some thermo-physical properties of ZrX2 (X = S, Se, Te) TMDCs in details via ab-initio technique in this study. Elastic anisotropy indices, atomic bonding character, optoelectronic properties and thermo-physical parameters including melting temperature and minimum phonon thermal conductivity are investigated for the first time. All the TMDCs under investigation possess significant elastic anisotropy and layered structural features. ZrX2 (X = S, Se, Te) compounds are fairly machinable, and ZrS2 and ZrSe2 are moderately hard. ZrTe2, on the other hand, is significantly softer. Both covalent and ionic bondings contribute in the crystals. Electronic band structure calculations display semiconducting behavior for ZrS2 and ZrSe2 and metallic behavior for ZrTe2. Energy dependent optoelectronic parameters exhibit good correspondence with the underlying electronic energy density of states features. ZrX2 (X = S, Se, Te) compounds absorb ultraviolet radiation effectively. The reflectivity spectrum, R(w), remains over 50% in the energy range from 0 eV to 20 eV for ZrTe2. Therefore, this TMDC has wide band and nonselective high reflectivity and can be used as an efficient reflector to reduce solar heating. Debye temperature, melting point and minimum phonon thermal conductivity of the compounds under study are low and show excellent correspondence with each other and also with the elastic and bonding characteristics.

Published
2021

30. A new approach to achieving high granularity for silicon diode detectors with impact ionization gain

Author

Ayyoub, S., Gee, C., Islam, R., Mazza, S. M., Schumm, B., Seiden, A., and Zhao, Y.

Subjects
Physics - Instrumentation and Detectors
Abstract

Low Gain Avalanche Diodes (LGADs) are thin (20-50 $\mu m$)silicon di ode sensors with modest internal gain (typically 5 to 50) and exceptional time resolution (17 $ps$ to 50 $ps$). However, the granularity of such devices is limited to the millimeter scale due to the need to include protection structures at the boundaries of the readout pads to avoid premature breakdown due to large local electric fields. In this paper we present a new approach -- the Deep-Junction LGAD (DJ-LGAD) -- that decouples the high-field gain region from the readout plane. This approach is expected to improve the achievable LGAD granularity to the tens-of-micron scale while maintaining direct charge collection on the segmented electrodes., Comment: 16 pages, 12 figures

Published
2021

32. The Large Hadron-Electron Collider at the HL-LHC

Author

Agostini, P., Aksakal, H., Alekhin, S., Allport, P. P., Andari, N., Andre, K. D. J., Angal-Kalinin, D., Antusch, S., Bella, L. Aperio, Apolinario, L., Apsimon, R., Apyan, A., Arduini, G., Ari, V., Armbruster, A., Armesto, N., Auchmann, B., Aulenbacher, K., Azuelos, G., Backovic, S., Bailey, I., Bailey, S., Balli, F., Behera, S., Behnke, O., Ben-Zvi, I., Benedikt, M., Bernauer, J., Bertolucci, S., Biswal, S. S., Blümlein, J., Bogacz, A., Bonvini, M., Boonekamp, M., Bordry, F., Boroun, G. R., Bottura, L., Bousson, S., Bouzas, A. O., Bracco, C., Bracinik, J., Britzger, D., Brodsky, S. J., Bruni, C., Brüning, O., Burkhardt, H., Cakir, O., Calaga, R., Caldwell, A., Calıskan, A., Camarda, S., Catalan-Lasheras, N. C., Cassou, K., Cepila, J., Cetinkaya, V., Chetvertkova, V., Cole, B., Coleppa, B., Cooper-Sarkar, A., Cormier, E., Cornell, A. S., Corsini, R., Cruz-Alaniz, E., Currie, J., Curtin, D., D'Onofrio, M., Dainton, J., Daly, E., Das, A., Das, S. P., Dassa, L., de Blas, J., Rose, L. Delle, Denizli, H., Deshpande, K. S., Douglas, D., Duarte, L., Dupraz, K., Dutta, S., Efremov, A. V., Eichhorn, R., Eskola, K. J., Ferreiro, E. G., Fischer, O., Flores-Sánchez, O., Forte, S., Gaddi, A., Gao, J., Gehrmann, T., Ridder, A. Gehrmann-De, Gerigk, F., Gilbert, A., Giuli, F., Glazov, A., Glover, N., Godbole, R. M., Goddard, B., Gonçalves, V., Gonzalez-Sprinberg, G. A., Goyal, A., Grames, J., Granados, E., Grassellino, A., Gunaydin, Y. O., Guo, Y. C., Guzey, V., Gwenlan, C., Hammad, A., Han, C. C., Harland-Lang, L., Haug, F., Hautmann, F., Hayden, D., Hessler, J., Helenius, I., Henry, J., Hernandez-Sanchez, J., Hesari, H., Hobbs, T. J., Hod, N., Hoffstaetter, G. H., Holzer, B., Honorato, C. G., Hounsell, B., Hu, N., Hug, F., Huss, A., Hutton, A., Islam, R., Iwamoto, S., Jana, S., Jansova, M., Jensen, E., Jones, T., Jowett, J. M., Kaabi, W., Kado, M., Kalinin, D. A., Karadeniz, H., Kawaguchi, S., Kaya, U., Khalek, R. A., Khanpour, H., Kilic, A., Klein, M., Klein, U., Kluth, S., Köksal, M., Kocak, F., Korostelev, M., Kostka, P., Krelina, M., Kretzschmar, J., Kuday, S., Kulipanov, G., Kumar, M., Kuze, M., Lappi, T., Larios, F., Latina, A., Laycock, P., Lei, G., Levitchev, E., Levonian, S., Levy, A., Li, R., Li, X., Liang, H., Litvinenko, V., Liu, M., Liu, T., Liu, W., Liu, Y., Liuti, S., Lobodzinska, E., Longuevergne, D., Luo, X., Ma, W., Machado, M., Mandal, S., Mäntysaari, H., Marhauser, F., Marquet, C., Martens, A., Martin, R., Marzani, S., McFayden, J., Mcintosh, P., Mellado, B., Meot, F., Milanese, A., Milhano, J. G., Militsyn, B., Mitra, M., Moch, S., Najafabadi, M. Mohammadi, Mondal, S., Moretti, S., Morgan, T., Morreale, A., Nadolsky, P., Navarra, F., Nergiz, Z., Newman, P., Niehues, J., Nissen, E. A., Nowakowski, M., Okada, N., Olivier, G., Olness, F., Olry, G., Osborne, J. A., Ozansoy, A., Pan, R., Parker, B., Patra, M., Paukkunen, H., Peinaud, Y., Pellegrini, D., Perez-Segurana, G., Perini, D., Perrot, L., Pietralla, N., Pilicer, E., Pire, B., Pires, J., Placakyte, R., Poelker, M., Polifka, R., Polini, A., Poulose, P., Pownall, G., Pupkov, Y. A., Queiroz, F. S., Rabbertz, K., Radescu, V., Rahaman, R., Rai, S. K., Raicevic, N., Ratoff, P., Rashed, A., Raut, D., Raychaudhuri, S., Repond, J., Rezaeian, A. H., Rimmer, R., Rinolfi, L., Rojo, J., Rosado, A., Ruan, X., Russenschuck, S., Sahin, M., Salgado, C. A., Sampayo, O. A., Satendra, K., Satyanarayan, N., Schenke, B., Schirm, K., Schopper, H., Schott, M., Schulte, D., Schwanenberger, C., Sekine, T., Senol, A., Seryi, A., Setiniyaz, S., Shang, L., Shen, X., Shipman, N., Sinha, N., Slominski, W., Smith, S., Solans, C., Song, M., Spiesberger, H., Stanyard, J., Starostenko, A., Stasto, A., Stocchi, A., Strikman, M., Stuart, M. J., Sultansoy, S., Sun, H., Sutton, M., Szymanowski, L., Tapan, I., Tapia-Takaki, D., Tanaka, M., Tang, Y., Tasci, A. T., Ten-Kate, A. T., Thonet, P., Tomas-Garcia, R., Tommasini, D., Trbojevic, D., Trott, M., Tsurin, I., Tudora, A., Cakir, I. Turk, Tywoniuk, K., Vallerand, C., Valloni, A., Verney, D., Vilella, E., Walker, D., Wallon, S., Wang, B., Wang, K., Wang, X., Wang, Z. S., Wei, H., Welsch, C., Willering, G., Williams, P. H., Wollmann, D., Xiaohao, C., Xu, T., Yaguna, C. E., Yamaguchi, Y., Yamazaki, Y., Yang, H., Yilmaz, A., Yock, P., Yue, C. X., Zadeh, S. G., Zenaiev, O., Zhang, C., Zhang, J., Zhang, R., Zhang, Z., Zhu, G., Zhu, S., Zimmermann, F., Zomer, F., Zurita, J., and Zurita, P.

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology, Nuclear Experiment, Nuclear Theory
Abstract

The Large Hadron electron Collider (LHeC) is designed to move the field of deep inelastic scattering (DIS) to the energy and intensity frontier of particle physics. Exploiting energy recovery technology, it collides a novel, intense electron beam with a proton or ion beam from the High Luminosity--Large Hadron Collider (HL-LHC). The accelerator and interaction region are designed for concurrent electron-proton and proton-proton operation. This report represents an update of the Conceptual Design Report (CDR) of the LHeC, published in 2012. It comprises new results on parton structure of the proton and heavier nuclei, QCD dynamics, electroweak and top-quark physics. It is shown how the LHeC will open a new chapter of nuclear particle physics in extending the accessible kinematic range in lepton-nucleus scattering by several orders of magnitude. Due to enhanced luminosity, large energy and the cleanliness of the hadronic final states, the LHeC has a strong Higgs physics programme and its own discovery potential for new physics. Building on the 2012 CDR, the report represents a detailed updated design of the energy recovery electron linac (ERL) including new lattice, magnet, superconducting radio frequency technology and further components. Challenges of energy recovery are described and the lower energy, high current, 3-turn ERL facility, PERLE at Orsay, is presented which uses the LHeC characteristics serving as a development facility for the design and operation of the LHeC. An updated detector design is presented corresponding to the acceptance, resolution and calibration goals which arise from the Higgs and parton density function physics programmes. The paper also presents novel results on the Future Circular Collider in electron-hadron mode, FCC-eh, which utilises the same ERL technology to further extend the reach of DIS to even higher centre-of-mass energies., Comment: 373 pages, many figures, to be published by J. Phys. G

Published
2020
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33. Programmable Quantum Simulations of Spin Systems with Trapped Ions

Author

Monroe, C., Campbell, W. C., Duan, L. -M., Gong, Z. -X., Gorshkov, A. V., Hess, P., Islam, R., Kim, K., Linke, N., Pagano, G., Richerme, P., Senko, C., and Yao, N. Y.

Subjects
Quantum Physics, Condensed Matter - Materials Science
Abstract

Laser-cooled and trapped atomic ions form an ideal standard for the simulation of interacting quantum spin models. Effective spins are represented by appropriate internal energy levels within each ion, and the spins can be measured with near-perfect efficiency using state-dependent fluorescence techniques. By applying optical fields that exert optical dipole forces on the ions, their Coulomb interaction can be modulated to produce long-range and tunable spin-spin interactions that can be reconfigured by shaping the spectrum and pattern of the laser fields, in a prototypical example of a quantum simulator. Here we review the theoretical mapping of atomic ions to interacting spin systems, the preparation of complex equilibrium states, the study of dynamical processes in these many-body interacting quantum systems, and the use of this platform for optimization and other tasks. The use of such quantum simulators for studying spin models may inform our understanding of exotic quantum materials and shed light on the behavior of interacting quantum systems that cannot be modeled with conventional computers.

Published
2019
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35. Programmable quantum simulations of spin systems with trapped ions

Author

Monroe, C, Campbell, WC, Duan, LM, Gong, ZX, Gorshkov, AV, Hess, PW, Islam, R, Kim, K, Linke, NM, Pagano, G, Richerme, P, Senko, C, and Yao, NY

Subjects
Physical Sciences, Fluids & Plasmas
Abstract

Laser-cooled and trapped atomic ions form an ideal standard for the simulation of interacting quantum spin models. Effective spins are represented by appropriate internal energy levels within each ion, and the spins can be measured with near-perfect efficiency using state-dependent fluorescence techniques. By applying optical fields that exert optical dipole forces on the ions, their Coulomb interaction can be modulated to produce long-range and tunable spin-spin interactions that can be reconfigured by shaping the spectrum and pattern of the laser fields in a prototypical example of a quantum simulator. Here the theoretical mapping of atomic ions to interacting spin systems, the preparation of complex equilibrium states, and the study of dynamical processes in these many-body interacting quantum systems are reviewed, and the use of this platform for optimization and other tasks is discussed. The use of such quantum simulators for studying spin models may inform our understanding of exotic quantum materials and shed light on the behavior of interacting quantum systems that cannot be modeled with conventional computers.

Published
2021

38. Critical current density of hole doped high-Tc cuprates and heavy fermion superconductors: relevance to the possible quantum critical behavior

Author

Naqib, S. H. and Islam, R. S.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

The superconducting critical current density, Jc, in hole doped cuprates show strong dependence on the doped hole content, p, within the copper oxide plane(s). The doping dependent Jc mainly exhibits the variation of the intrinsic depairing critical current density as p is varied. Jc(p) tends to peak at p ~ 0.185 in copper oxide superconductors. This particular value of the hole content, often termed as the critical hole concentration, has several features putative to a quantum critical point (QCP). Very recently, pressure dependences of the superconducting transition temperature (Tc) and the critical current (Ic) in pure CeRhIn5 and Sn doped CeRhIn5 heavy fermion compounds have been reported (Nature Communications (2018) 9:44, DOI: 10.1038/s41467-018-02899-5). The critical pressure demarcates an antiferromagnetic quantum critical point where both Tc and Ic are maximized. We have compared and contrasted this behavior with those found for Y1-xCaxBa2Cu3O7-d in this brief communication. The resemblance of the systematic behavior of the critical current with pressure and hole content between heavy fermion systems and hole doped cuprates is significant. This adds to the circumstantial evidence that quantum critical physics probably plays a notable role beyond the unconventional normal and superconducting state properties of copper oxide superconductors., Comment: 14 pages, 8 figures, 1 table, submitted for publication

Published
2018

39. List of contributors

Author

Abdelmaksoud, Islam R., primary, AbouElfetouh, Ahmed, additional, Abouelkheir, Rasha, additional, Alksas, Ahmed, additional, Andrearczyk, Vincent, additional, Bakas, Spyridon, additional, Bazoukis, George, additional, Benjelloun, Mohammed, additional, Bhattacharjee, Debotosh, additional, Brodzicki, Andrzej, additional, Chellappa, Rama, additional, Conant, Emily F., additional, Drisis, Stylianos, additional, El Adoui, Mohammed, additional, El-Baz, Ayman S., additional, El-Ghar, Mohamed Abou, additional, Elmahdy, Ahmed, additional, Elmogy, Mohammed, additional, Gastounioti, Aimilia, additional, Gehlot, Shiv, additional, Ghazal, Mohammed, additional, Giridharan, Guruprasad, additional, Gorgon, Marek, additional, Graziani, Mara, additional, Gupta, Anubha, additional, Gupta, Ritu, additional, Huang, Junzhou, additional, Jaworek-Korjakowska, Joanna, additional, Khaled, Reem, additional, Khalifa, Fahmi, additional, Kleczek, Pawel, additional, Kontos, Despina, additional, Larhmam, Mohammed Amine, additional, Lee, Sharen, additional, Li, Ruoyu, additional, Li, Xinmu, additional, Liao, Haofu, additional, Lin, Wei-An, additional, Liu, Tong, additional, Maghsoudi, Omid Haji, additional, Mahmoud, Ali, additional, Müller, Henning, additional, Naglah, Ahmed, additional, Nguyen, Truc, additional, Peng, Cheng, additional, Pernkopf, Franz, additional, Rathore, Saima, additional, Razek, Ahmed Abdel Khalek Abdel, additional, Shalaby, Ahmed, additional, Shehata, Mohamed, additional, Tse, Gary, additional, Yap, Moi Hoon, additional, and Zhou, Shaohua Kevin, additional

Published
2023
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41. Long-Term Follow-Up Strategy

Author

Herzallah, Islam R., Ashoor, Mona, AlQahtani, Abdulaziz A., editor, Castelnuovo, Paolo, editor, Casiano, Roy, editor, and Carrau, Ricardo L., editor

Published
2022
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42. Managing outsourcing and shared services projects in accounting and finance sector

Author

Islam, R.

Subjects
658
Abstract

Enterprise project in outsourcing and shared services have been gaining prominence in different sectors globally. Outsourcing and shared services projects in accounting and finance has been gaining momentum in the UK and most of the developed world. With the growth in information technology, and availability of platforms for remote collaboration, outsourcing and shared services are going to grow further in the future. However, outsourcing and shared services projects in accounting and finance come with its own unique sets of drivers, challenges, benefits and skills requirements. The aim of this thesis is to develop a better understanding of outsourcing and shared services projects in the accounting and finance sector in the UK. The thesis has taken a mixed method approach. Through an extensive review of literature initial issues were documented and this led to development of a semistructured interview questionnaire for 41 respondents which included: a) Academics b) Professional Bodies c) Clients, and d) Vendors e) Shared Services. The findings from this stage were presented to six experts who validated the findings and provided further insights through a brainstorming session. The data collected from the brainstorming session was used to conduct Interpretive Structural Modelling (ISM) of project drivers, and Interpretive Ranking Process (IRP) of drivers to benefits, skills to benefits and skills to management levels. The major conclusions from the ISM and IRP are: 1) Compliance and legal issues is the most important driver which initiates an outsourcing project and is followed by access to specialist knowledge, advanced technology, management support, efficiency aspiration, need to focus on core business, pressure to improve customer experience leading to expansion of the business. One important finding is that proximity has become less important due to availability of advanced information and communication technology and the recent developments in remote collaborative technological platforms mean that one can pursue outsourcing projects anywhere irrespective of location of client or vendor; 2) When it comes to harnessing benefits, the ability to be able to access specialist knowledge without having to invest in your own workforce is the most important driver. This is followed by advanced technology, management support, efficiency improvements, compliance, focus on core business, business expansion, proximity and customer experience; 3) In order to facilitate a successful implementation the order of importance of skills that leads to most benefits are: Interpersonal skills, technical skills, management skills, IT skills, intellectual skills and personal skills; and 4) Interpersonal skills, intellectual skills, IT skills and personal skills are needed at all levels of management in a client organisation, management skills are needed at middle and higher levels of management, technical skills become very important for lower and middle level managers who have to communicate effectively with outsourcing and shared services vendors on a daily basis.

Published
2019

43. Pair-Breaking, Pseudogap, and Superconducting Tc of Hole Doped Cuprates: Interrelations and Implications

Author

Naqib, S. H., Islam, R. S., and Qabid, Ihtisham

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons
Abstract

Irrespective of the class they belong to, all the hole doped high-Tc cuprate superconductors show an anti-correlation between the superconducting transition temperature and the characteristic pseudogap energy in the underdoped region. The doping dependent pseudogap in the quasiparticle spectral density is believed to remove low-energy electronic states and thereby reduce the superconducting condensate. Impurities within the CuO2 plane, on the other hand, break Cooper pairs in the unitarity limit and diminish superfluid density. Both pseudogap in pure cuprates and impurity scattering in disordered cuprates reduces Tc very effectively. In this study we have compared and contrasted the mechanisms of Tc degradation due to pseudogap and impurity scattering in hole doped cuprates. We have suggested a framework where both these factors can be treated on somewhat equal footing. Beside impurity and pseudogap dependent superconducting transition temperature, the proposed scenario has been employed to investigate the disorder and hole content dependent isotope exponent in high-Tc cuprates in this work., Comment: This is a slightly revised version of the paper accepted for publication in the Journal of Superconductivity and Novel Magnetism

Published
2018

45. Zn-induced in-gap electronic states in La214 probed by uniform magnetic susceptibility: relevance to the suppression of superconducting Tc

Author

Islam, R. S. and Naqib, S. H.

Subjects
Condensed Matter - Superconductivity
Abstract

Substitution of isovalent non-magnetic defects, such as Zn, in CuO2 plane strongly modifies the magnetic properties of strongly electron correlated hole doped cuprate superconductors. The reason for enhanced uniform magnetic susceptibility, \c{hi}, in Zn substituted cuprates is debatable. So far, the observed magnetic behavior has been analyzed mainly in terms of two somewhat contrasting scenarios, (a) that due to independent localized moments appearing in the vicinity of Zn arising because of the strong electronic/magnetic correlations present in the host compound and (b) that due to transfer of quasiparticle spectral weight and creation of weakly localized low energy electronic states associated with each Zn atom in place of an in-plane Cu. If the second scenario is correct, one should expect a direct correspondence between Zn induced suppression of superconducting transition temperature, Tc, and the extent of the enhanced magnetic susceptibility at low temperature. In this case, the low-T enhancement of \c{hi} would be due to weakly localized quasiparticle states at low energy and these electronic states will be precluded from taking part in Cooper pairing. We explore this second possibility by analyzing the \c{hi}(T) data for La2-xSrxCu1-yZnyO4 with different hole contents, p (= x), and Zn concentrations (y) in this paper. Results of our analysis support this scenario., Comment: Submitted to Supercond. Sci. Technol. for publication

Published
2017
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50. Days Alive out of the Hospital After Placement of A Contemporary Left Ventricular Assist Device and Heart Transplantation

Author

Ovalle Ramos, J.A., primary, Fletcher, R., additional, Islam, R., additional, Mehta, A., additional, Ferrell, B., additional, Diez-Lopez, C., additional, Rochlani, Y., additional, Madan, S., additional, Murthy, S., additional, Shin, J., additional, Vukelic, S., additional, Forest, S., additional, Sims, D., additional, Patel, S., additional, Jorde, U., additional, Goldstein, D., additional, and Saeed, O., additional

Published
2024
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