"WE ARE FIGHTING A WATER WAR" : The Character of the Upstream States and Post-Treaty Transboundary Water Conflict in Afghanistan and India

Safi, Maryam

January 2021

Transboundary water treaties are often expected to prevent conflicts over waters from shared rivers. However, empirical evidence shows that some upstream countries continue to experience conflict after signing a water treaty. This study explains why some upstream countries experience high post-treaty transboundary water conflict levels while others do not. Departing from theories on the character of states, I argue that weaker upstream countries are more likely to experience post-treaty transboundary water conflict than stronger upstream states. This is because a weak upstream state has fewer capabilities, which creates an imbalance of power with its downstream riparian neighbor and presents a zero-sum game condition. As a result, the upstream state is more likely to experience a high level of conflict after signing an agreement. The hypothesis is tested on two transboundary river cases, the Helmand River Basin and the Indus River Basin, using a structured, focused comparison method. The data is collected through secondary sources, including books, journals, news articles, and reports, government records. The results of the study mainly support the theoretical arguments. It shows a significant relationship between the character of the upstream state and the level of post-treaty transboundary water conflict in the upstream state.

Post-Treaty Transboundary Water Conflict

Transboundary Water Treaty

Indus River Basin

Helmand River Basin

Afghanistan

Iran

India

Pakistan

Upstream

Downstream.

Political Science

Statsvetenskap

Hydro-political Security Complexes and the Role of International Organizations in Bringing Cooperation or Conflict to Shared Transboundary Rivers

Yasser, Noha

January 2023

Transboundary water treaties are established to prevent disputes over shared rivers between states. Nevertheless, empirical studies indicate that international organizations manage to bring cooperation between states in some cases and fail in others. This research explains why the efforts of international organizations to promote water cooperation sometimes succeed or sometimes fail and which factors contribute to their varying levels of success in different cases? International organizations are more likely to achieve cooperation between states with strong characters (less change in power dynamics) and share mutual benefits than weaker states (frequent shift in power dynamics) and have less shared benefits. I will examine how shared benefits and the character of the state can help international originations achieve cooperation or conflict that can be influenced by power asymmetry or by creating an imbalance/balance of power (causal mechanisms). Thus, weak riparian countries are less likely to achieve cooperation, increasing the probability of conflict. The hypothesis is tested on the Nile River Basin and the Indus River Basin, using a comparative analysis. The findings indicate an important relationship between the state’s characters, shared benefits, and the role of international organizations in bringing cooperation and preventing conflict between riparian states.

Keywords: Transboundary Water Conflict

Transboundary Water Cooperation

Nile River Basin

Indus River Basin

Egypt

Ethiopia

India

Pakistan

World Bank

International organizations.

Social Sciences

Samhällsvetenskap

Quantifying scribal behavior : a novel approach to digital paleography

Sampath, Vinodh Rajan

January 2016

We propose a novel approach for analyzing scribal behavior quantitatively using information about the handwriting of characters. To implement this approach, we develop a computational framework that recovers this information and decomposes the characters into primitives (called strokes) to create a hierarchically structured representation. We then propose a number of intuitive metrics quantifying various facets of scribal behavior, which are derived from the recovered information and character structure. We further propose the use of techniques modeling the generation of handwriting to directly study the changes in writing behavior. We then present a case study in which we use our framework and metrics to analyze the development of four major Indic scripts. We show that our framework and metrics coupled with appropriate statistical methods can provide great insight into scribal behavior by discovering specific trends and phenomena with quantitative methods. We also illustrate the use of handwriting modeling techniques in this context to study the divergence of the Brahmi script into two daughter scripts. We conduct a user study with domain experts to evaluate our framework and salient results from the case study, and we elaborate on the results of this evaluation. Finally, we present our conclusions and discuss the limitations of our research along with future work that needs to be done.

Etude stratigraphique, sédimentologique et structurale d'un bassin d'avant arc : exemple du bassin de l'Indus, Ladakh, Himalaya

Van Haver, Thierry

10 October 1984

L'analyse stratigraphique, la découverte de faunes et microfaunes et l 'étude des modes et milieux de dépôts permettent de distinguer plusieurs unités lithostratigraphiques, qui malgrè quelques variations de faciès, se suivent latéralement d'Ouest en Est et ont pu être cartées au 1/125.000e. La structure d ' ensemble en synclinorium dissymétrique affecté de failles inverses à vergence nord résulte de deux phases de plissements majeures . L 'analyse microstructurale permet d 'estimer une direction de raccourcissement proche de N10. L 'importance des déformations et l 'intensité du métamorphisme décroissent toutes deux du Sud vers le Nord. Ceci peut être mis en relation avec un rétrochevauchement vers le Nord . L'histoire de l évolution du bassin de l'Indus est celle d'une marge active prise dans une collision intercontinentale. En avant 'un arc magmatique, mis en place le long de la marge active sud tibétaine , s 'individualise dès l'Albien supérieur un bassin semblable au "fore arc" interne des marges andines actuelles. Pendant toute la fin du Crétacé et jusqu'à l'Eocène inférieur, des conditions marines franches régnent au Sud du bassin, tandis qu ' au Nord les produits terrigènes issus du démantèlement du batholite ladakhi constituent d 'importants cônes torrentiels ou fluviatiles. A partir de l 'Eocène moyen, consécutivement à la collision des blocs indien et sud tibétain s'observe une régression généralisée; la sédimentation devient continentale sur tout le bassin , et correspond à la superposition de cônes alluviaux plus ou moins distaux . La dérive vers le Nord du bloc continental indien se poursuivant un serrage important règle les déformations et le métamorphisme qui affectent les séries du bassin de l'Indus; celles- ci finissent par être chevauchées par les formations du fore -arc externe : la cicatrice de l'Indus est alors définitivement structurée.

Himalaya

Indus

flysch

molasse continentale

Crétacé

Paléocène

Eocène

Ladakh

suture

marge active

sédimentation

p l ate- forme carbonatée

détritisme terrigène

structures

déformations et métamorphisme

La spécialisation du travail artisanal dans la civilisation de l'Indus

Brisset, Isabelle

08 1900

La civilisation de l’Indus marque les esprits par une apparente uniformité de la culture matérielle sur la totalité de son territoire (environ 1 million de km carré) durant sa période d’apogée (2600-1900 av. J.-C.). Cette étude cherche à tester deux hypothèses qui pourraient expliquer cette homogénéité : 1) Un pouvoir centralisateur contrôlant la production artisanale; et 2) Un vaste réseau d’échanges et de distribution de la production. Dans ce but, la grande majorité des publications accessibles portant sur la production artisanale d’objets en céramique, en pierres semi-précieuses, en coquillage et en métal ont été inventoriées et analysées. Axée sur la spécialisation du travail artisanal, l’étude a identifié quelques objets dits de prestige (perles classiques harappéennes, bracelets en grès cérame) très probablement liés à une élite. La nature de cette élite est ensuite examinée et un nouveau modèle d’organisation sociopolitique de cette civilisation est proposé. / The Indus civilization puzzles archaeologists in that it shows a seeming uniformity in its material culture during the period from 2600 to 1900 BC and over its huge geographical extent (approximately 1 million square km). In this study two hypotheses are tested: 1) This uniformity in material culture is due to a central political force monitoring craft production; or 2) This uniformity results from an extensive trade and distribution network of craft production. In order to assess these, all available data concerning the craft production of ceramic, lapidary, shell-working and metal artefacts were inventoried and analyzed. A study of craft specialization identified a few wealth items (long carnelian beads, stoneware bangles), which were most probably related to an elite. After reassessing the nature of this elite, a new model of sociopolitical organization for this civilization is proposed.

Archéologie

Civilisation de l'Indus

Période d'apogée (2600-1900 av. J.-C.)

Organisation de la production

Organisation sociopolitique

Spécialisation du travail artisanal

Objets de prestige

Archaeology

Indus civilization

2600-1900 BC

Social organization of craft production

Socio-political organization

Craft specialization

Wealth items

Soft X-ray Multilayers As Polarizing Elements : Fabrication, And Studies Of Surfaces And Interfaces

Nayak, Maheswar

08 1900

The exploitation of the soft x-ray/extreme ultra-violet (EUV) region of the electromagnetic spectrum is possible mainly due to the development of multilayer (ML) mirrors. This region of the electromagnetic spectrum offers great opportunities in both science and technology. The shorter wavelength allows one to see smaller features in microscopy and write finer features in lithography. High reflectivity with moderate spectral bandwidth at normal/near-normal incidence can be achieved in soft x-ray/ EUV spectral range using these ML mirrors, where natural crystals with the required large periodicity are not available. These MLs are generally artificial Bragg’s reflectors, which consist of alternative high and low density materials with periodicity in the nanometer range. The main advantages of ML optics stem from the tunability of layer thickness, composition, lateral gradient, and the gradient along the normal to the substrate; these can be tailored according to the desired wavelength regime. They have the great advantage of being adaptable to figured surfaces, enabling their use as reflective optics in these spectral regions, for focusing and imaging applications. Broadband reflectivity and wavelength tunability are also possible by using MLs with normal and lateral gradient, respectively. However, fabrication of these ML mirrors requires the capability to deposit uniform, ultra-thin (a few angstroms-thick) films of different materials with thickness control on the atomic scale. Thus, one requires a proper understanding of substrate surfaces, individual layers, chemical reactivity at interfaces and, finally, of the ML structures required for particular applications. The performance of these MLs is limited by (the lack of) contrast in optical constants of the two materials, interfacial roughness, the chemical reactivity of two materials and, finally, errors in the thickness of individual layers. Soft x-ray/extreme ultra-violet ML mirrors have found a wide range of applications in synchrotron radiation beam lines, materials science, astronomy, x-ray microscopy, x-ray laser, x-ray lithography, polarizers, and plasma diagnostics. The Indus–1 synchrotron radiation (SR) source is an operational 450 MeV machine, which produces radiation up to soft x-rays. Indus-2 is a 2.5 GeV machine, which has been commissioned recently to produce hard x-rays (E > 25 keV). The combination of Indus-1 and Indus-2 will cover a broad energy spectrum from IR to hard x-rays. Therefore, there is a significant need and opportunity to study MLs of different pairs of materials, with different parameters such as periodicity and optimum thickness of individual layers. The goal of the present thesis is to fabricate MLs for soft x-ray optics and to study their physics for application as polarizers in the wavelength range from 67 Å to 160 Å on the Indus-1 synchrotron source. To accomplish this task, a UHV electron beam evaporation system has been developed indigenously for the fabrication of MLs. Three different ML systems viz., Mo/Si, Fe/B4C and Mo/Y have been fabricated, and their surfaces and interfaces were investigated thoroughly for the polarizer application. X-ray reflectivity (XRR) has been used extensively in the investigations of these MLs. This is because XRR is a highly sensitive non-destructive technique for the characterization of buried interfaces, and gives microscopic information (at atomic resolution) over a macroscopic length scale (a few microns). Numerical analysis of XRR data has been carried out using computer programs. Depth-graded x-ray photoelectron spectroscopy (XPS) has been used for compositional analysis at interfaces for some of the ML structures, as a technique complementary to XRR. The performance of some of these MLs has been tested in the soft x-ray region, using the Indus-1 synchrotron radiation (SR) source. Prior to studying the MLs, a detailed study of the surfaces and interfaces of thin films, bi-layers, and tri-layers was carried out using XRR and the glancing incidence fluorescence technique. The discontinuous-to-continuous transition and the mode of film growth, which are vital to the optimization of layer thickness (basically for the high-atomic number or high-Z layer) in the ML structures, were also investigated using in situ sheet resistance measurement method. Indus-1 is a soft x-ray SR source that covers atomic absorption edges of many low-Z materials. The present work demonstrates the possibilities of characterizing low-Z thin films and multilayers using soft x-ray resonant reflectivity. In one case, we have shown for first time that soft x-ray resonant reflectivity can be employed as a non-destructive technique for the determination of interlayer composition. In a second study using the Indus-1 SR source, we have shown, by observing the effect of the anomalous optical constant on reflectivity pattern when photon energy is tuned across the atomic absorption edge of the constituent low-Z element, that soft x-ray resonant reflectivity is an element-specific technique. This thesis is organized into 7 chapters. A brief summary of individual chapters is presented below. Chapter 1 gives a brief general introduction to x-ray ML optics. This is followed by a discussion of the importance of the soft x-ray region of electromagnetic radiation. The optical properties of x-rays are reviewed and optical constants are calculated for some of the important materials used for x-ray MLs. The refractive index in the x-ray region being less than unity (except absorption edges), the consequent limitation of conventional transmission lenses is discussed. The limitation of glancing angle incidence optics is presented, motivating the need for ML optics, which is discussed along with a theoretically calculated reflectivity profile. The procedure for materials for the MLs for application in different spectral regions is discussed, along with a survey of literature related to the present thesis. The importance of the quality of surfaces and interfaces on the performance of ML structures has been shown through simulations. The applications of soft x-ray MLs are discussed with emphasis on polarization. This is followed by a review of different modes of growth of thin films. Finally, the scope of the present work is highlighted. Chapter 2 provides brief descriptions of the experimental techniques used in the present investigations and of the numerical methods employed for quantitative data analysis. The XRR technique is discussed elaborately because it has been used extensively. Detailed calculations of x-ray reflectivity from single surfaces, thin films and bi-layers are presented, along with simulated values. The effect of critical angle and Brewster’s angle is also discussed. Data analysis methods for computing x-ray reflectivity from multilayer structures, based on dynamical and kinematical models, have been discussed. The effect of roughness on XRR has been discussed based on the recursion formalism of dynamical theory. Simulations of XRR and experimental XRR data fitting are carried out using computer programs. The XRR experimental set up is also outlined. A theoretical background is given for the electrical measurements on thin films. This is followed by a brief overview of x-ray photoelectron spectroscopy (XPS) and interpretation of spectra. Finally, the glancing incidence x-ray fluorescence (GIXRF) technique is outlined. Chapter 3 describes in detail the ultra-high vacuum electron beam evaporation system developed in house especially for the fabrication of thin films and x-ray multilayer optics. At the outset, a brief overview of different deposition techniques commonly used for the fabrication of x-ray optical elements is presented. Design, fabrication, and assembly of different accessories are discussed. The control of thickness and uniformity of the films deposited has been checked through the experiments, whose results are provided. The results obtained for ML test structures are presented to show the capability of system in carrying out fabrication of high quality x-ray ML structures. Finally, the versatility of evaporation system incorporating in situ characterization facilities such as -situ electrical measurements for different substrate temperatures is illustrated. Chapter 4 presents a study of the growth of ultra-thin Mo films at different substrate temperatures using in situ sheet resistance measurements. First, a theoretical background is given on the different stages of island growth and on factors affecting thin film growth, followed by a discussion of the possible electrical conduction phenomena in continuous and discontinuous metal films. The nature of thin film growth and a detailed microscopic picture at different growth stages are derived from a modeling of sheet resistance data obtained in situ. The various conduction mechanisms have been identified in different stages of growth. In the island growth stage, the isotropic and anisotropic growth of Mo islands is identified from the model. In the insulator-metal transition region, experimentally determined values of critical exponent of conductivity agrees well with theoretically predicted values for a two-dimensional (2D) percolating system, revealing that Mo films on float glass substrate is predominantly a 2D structure. The minimum thickness for which Mo films becomes continuous is obtained as 1.8 nm and 2.2 nm for Mo deposited at substrate temperatures 300 K and 100 K, respectively. An amorphous-to- crystalline transition is also observed, and discussed. Chapter 5 covers the detailed study of the surfaces and interfaces studies in three different ML structures viz., Mo/Si, Fe/B4C and Mo/Y, meant for the polarizer application in the wavelength range of 67 Å to 160 Å. Multilayers with varying periodicity, varying number of layer pairs, and different ratios of high-Z layer thickness to the period, were fabricated using the electron beam system. Initially, a brief overview of the design aspects of ML structures is given, along with the theoretically calculated reflectivity at Brewster’s angle from the best material combinations. In Mo/Si MLs, the interlayer formed at the interfaces due to interdiffusion of the two elements is asymmetric in thickness, i.e., Mo-on-Si interlayer is thicker than the Si-on-Mo interlayer. To take account of these interlayers in XRR data fitting, a four layer model is considered. The effect of interlayers on reflectivity pattern was studied using simulations, and differences with respect to roughness are also discussed. The mechanism of formation of asymmetric interlayers is also discussed. The interlayer composition has determined using depth-graded XPS. The results reveal the formation of the MoSi2 composition at both the interfaces. The experimental results agree well with theoretical calculations based on solid-state amorphization reaction, which is a result of large heat of mixing. The effective heat of formation model reveals the formation of MoSi2 as the first phase. The soft x-ray reflectivity performance of the Mo/Si ML structure at Brewster’s angle is tested using Indus-1 synchrotron radiation (SR). Using XRR and GIXFR, a study of the surfaces and interfaces of bilayers of B4C-on-Fe and Fe-on- B4C, and tri-layers of Fe-B4C-Fe was carried out, with a systematic variation of Fe and B4C layer thicknesses. A sharp interface was observed in Fe-on-B4C, whereas a low density (w.r.t. Fe) interlayer is observed at the B4C-on-Fe interface. The interlayer properties fluctuates w.r.t. the bottom Fe layer thickness and is independent of the top B4C layer thickness. The nature of fluctuations has been discussed in detail. A study of the surfaces and interfaces of Fe/B4C MLs is described. Finally, a study of the surfaces and interfaces of bilayers, tri-layers, and MLs of the Mo/Y system is discussed in detail. Chapter 6 describes the application of soft x-ray resonant reflectivity for the characterization of low-Z thin films and interfaces in multilayer structures. Initially, a discussion of the energy dependence of atomic scattering factors and hence of optical constants is provided with simulations, with emphasis on the atomic absorption edge. Then, a brief overview of synchrotron radiation, with particular emphasis on the parameters of the Indus-1 synchrotron source is given. The possibilities of determining the composition of the buried interlayer with sub-nanometer scale sensitivity using soft x-ray resonant reflectivity are discussed. The methodology has been applied to study the Mo/Si interface both by simulations and by experiments on the Indus-1 SR, by tuning the photon energy to the Si L-absorption edge. Finally, direct evidence of elemental specificity of soft x-ray resonant reflectivity through the observation of the effect of anomalous optical constants on the reflectivity pattern is discussed. We demonstrate the method through simulations and experiments on the B4C material in B4C thin films and Fe/ B4C bi-layers, using Indus-1 SR tuned to the boron Kedge. Chapter 7 summarizes the main findings of the present work, and provides an outlook for further investigations in the field.

Surface Engineering

X-ray Multilayers

Polarization

X-ray Optics

Thin Films

X-ray Resonant Reflectivity

Thin Film Growth

X-ray Multilayers - Fabrication

Electron Beam Evaporation

X-ray Multilayer Optics

Multilayer Structures

Soft X-ray Multilayers

Soft X-ray Resonant Reflectivity

Thin Molybdenum Films

Mo/Si Multilayers

Molybdenum/Silicon Multilayers

Indus-1

Materials Science

Study of Protein-protein Interactions using Molecular Dynamics Simulation

Mehrani, Ramin

16 September 2022

No description available.

Pharmaceuticals

Physical Chemistry

Bioinformatics

Biostatistics

Biophysics

Biomedical Research

Biomedical Engineering

Chemical Engineering

Chemistry

IRF3 dimerization

Protein-protein interaction

Phosphorylation

Dimerization free energy

Protein-ligand interaction

Metadynamics (MTD)

Umbrella sampling (US)

Indirect umbrella sampling (INDUS)

Markov state Model(MSM)

Hydrophobic confinement effect