Christopher pereira forex mentor

christopher pereira forex mentor

#forex currency#trading #strategies#forex trading#forex strategy#forex trading for #investing #fx #invest #stockmarket #forexeducation #tradingforex. I'm interested in mentoring people from: ; M · Soultions Consultant. MX's Online Banking/Mobile Solutions. Apr – Jan ; L · Senior Sales Engineer. At the Forexmentor Master Trader Summit, Chris Pereira will discuss how to incorporate FX Trading into one's overall retirement portfolio. TS VICTORY FOR BINARY OPTIONS Protection against sophisticated build and scale. In other to and just a hotel ever. As seen above, remember the Master their conversations with network simulator software alternatives for TeamViewer. Delete from my. For example, if Workbench window that topology may be 2 attempts, 1-minute connection icon in normal to speed computer and reinstall.

Salam Distinguished Lectures by Prof. This unusual states of matter combine the topological features of quantum Hall states with orientational symmetry breaking characteristic of nematic order. Recent scanning tunneling microscopy measurements have directly visualized the spontaneous formation of boundary modes between distinct nematic domains and investigated their electronic structure [1].

I will explore implications of these ideas for the global phase diagram of quantum Hall valley nematics [3]. References: 1. Randeria, K. Agarwal, B. Feldman, H. Ding , Huiwen Ji3 , R. Cava , S. Sondhi , S. Parameswaran, A. Yazdani, under review 2. Agarwal, M. Randeria, A. Yazdani, S. Sondhi, S. Parameswaran, arXiv Parameswaran and B. Feldman, arXiv Due to classical work of Shimura and Deligne, to any "newform" a modular form that is an eigenfunction for the Hecke operators and assumed of level one in the talk one attaches a p-adic Galois representation.

Since there are infinitely many newforms, there are infinitely many attached p-adic Galois representations. However, if one reduces them modulo p, there are only finitely many up to isomorphism. It is tempting to ask what happens "in between", i. In the talk, I will motivate and explain a conjecture made with Ian Kiming and Nadim Rustom and explain partial results, including a relation to a strong question by Kevin Buzzard.

The talk is based on joint work with Ian Kiming and Nadim Rustom. We propose to discuss some of the reasons why this operator plays a central role in the area. Then we will concentrate on some of the classical results making special emphasis in the behavior of this operator in the context of Lp spaces with weights.

Then we will explain some more recent results focusing in the context of Lorentz spaces which are very useful extensions of the Lebesgue spaces. We have obtained some new results for these spaces but we don't know if they are optimal. In the last part of the lecture we will discuss a very interesting variant of the Hardy-Littlewood maximal function which is more singular called the strong maximal function.

We will discuss briefly some classical results and we will mention some recent results which, again, we don't know if the are optimal. We address this question in two opposite regimes, a rapidly periodically driven Floquet system coupled to a bath and a slowly driven one, within a non-equilibrium renormalization group approach.

In the periodically driven case, the infinitely rapidly driven limit exhibits a second order phase transition analogous to a multi-mode laser. However, we reveal that fluctuations turn the transition first order when the driving frequency is finite. This can be traced back to a universal mechanism, which crucially hinges on the competition of degenerate, near critical modes associated to higher Floquet Brillouin zones, in some analogy to the Halperin-Lubensky-Ma or Coleman-Weinberg mechanism.

A physical picture is that of a fluctuation induced many-body Kapitza pendulum. The critical exponents of the infinitely rapidly driven system -- including a new, independent one -- can yet be probed experimentally upon smoothly tuning towards that limit. The opposite, slowly driven limit, is governed by the Kibble-Zurek mechanism of diabatic freeze out of the divergence of the correlation length. Recasting this problem in a systematic RG formulation, we show that the slow drive can be used to resolve not only the leading critical exponents of the underlying equilibrium problem, but the full critical exponent spectrum.

Then, we will see how this geometric mean is related with the complex interpolation method, with the Riemannian structure of the cone of positive definite matrices, and finally, with recent results about barycenters in metric spaces with negative curvature.

We identify one quadratic contribution to the spin by calculating and extrapolating to the formation time the torque on a black hole due to ambient acoustic waves. For a reasonable density of primordial black holes this implies a percent level spin parameter. The Preparatory School is specifically organised only for participants of the above mentioned Winter College, providing background tutorials and exercises designed to help participants in following College's lectures.

Therefore candidates applying to the Preparatory School are expected to apply also to the Winter College. Models with strong dynamics at the TeV scale feature a confinement phase transition which is first order and generically slow, and a late inflationary period is a natural expectation. We study the modeling relevant for this problem, as long as the cosmological implications of this epoch. Using the formulation of Kapustin-Witten, it can be identified the category of B-branes of Hitchin moduli space over once-punctured torus with respect to a certain complex structure.

I also explain the relations to geometric Satake, Mackay and Langlands correspondence. The recent direct detection of gravitational waves GWs has opened a new window of observation for physical phenomena in which gravity is the dominant interaction. Collisions of black holes and neutron stars have been observed and a plethora of new events, even involving new physics, are expected to be detected in the next few years. It is natural to explore alternative physical objects that may exist which are different from the standard stars and black holes and that could lead to particular imprints on the GW spectrum.

In this talk I will explore the possibility that moduli gravitationally coupled scalar fields arising in all string compactifications can compose star-like objects moduli stars whose dynamics gives rise to GW production. I will illustrate their formation in the early universe, that was studied through lattice techniques. After their formation moduli stars can have very different behaviours, e. I will describe the fate of moduli stars, that was investigated through numerical relativity techniques.

Deriving impact through research, development and entrepreneurship in this sector will be explored. Improving food, from production to processing, is one of the most important and successful contributions of modern optical and photonic innovations. Optical sensing and spectroscopy discoveries have provided huge advances in all areas, from identifying nutritional components, to uncovering contamination by adulterants and pathogens.

Tailored light and light-based technologies also are used to better grow plants, purify water, kill pathogens, hatch eggs, and sort sperm and oocytes for herd control. In addition to lectures, there will be tutorials and hands-on activities. We discuss relativistic corrections to large scale structure observables.

These are expected to yield contributions comparable to fNL of a few, and therefore potentially observable in future surveys. We then focus on the large scale structure bispectrum in the squeezed limit, which couples large with small scales.

Since relativity is important at large scales and non-linear loop corrections are important at small scales, the proper calculation of the observed bispectrum in this limit requires a non-linear relativistic calculation. We compute the matter bispectrum in general relativity in the weak field approximation.

The calculation is as involved as existing second-order results. For the bispectrum, we find relativistic corrections to be as large as the newtonian result in the squeezed limit. In that limit relativistic one-loop contributions, which we compute for the first time, can be as large as tree level results and have the sa dependence as a primordial local non-Gaussianity signal where k is the momentum approaching zero.

Moreover, we find the time dependence of the relavistic corrections to the bispectrum to be the same as that of a primordial non-Gaussianity signal. In this talk, we will discuss some recent results that lead to birationality criteria and formulas for the degree of rational maps that depend on the algebraic properties of the syzygies of the base ideal. Mainly, we will introduce a new algebra called "saturated special fiber ring" and we will discuss its relations with the degree and birationality of rational maps between irreducible projective varieties.

Time permitting, we will also discuss some results in the problem of specializing the coefficients of a rational map. One possible approach to tackle the problem from an algebraic point of view was proposed by N. Tanaka in the 70s, through the process known as Tanaka prolongation.

The output of the prolongation is a graded Lie algebra, whose dimension is an upper bound for the dimension of the space of symmetries. A system is called rigid if its prolongation is finite dimensional. In this talk, I will show the generic rigidity of a wide class of non-holonomic systems of step 2 so-called Carnot groups. This result was obtained in joint work with B. Markina and A. Vasil'ev Bergen. I will first discuss the constraints on a low energy description put forth by the spatial symmetries of the Bloch wavefunction obtained through a realistic tight-binding calculation performed on a relaxed structure.

Next I will propose a minimal tight-binding model that reproduces the elementary band representation of the emergent P low-energy space group. Finally, I will show how the emergent symmetry shows up in the phonon spectrum, which suggests the intriguing possibility of an Exe Jahn-Teller effect as a possible mechanism to split the so-called valley degeneracy.

In this talk, we will be interested in robust transitivity, which means that the existence of dense orbits is shared by all nearby systems; we will discuss the necessary conditions for the existence of robust transitivity on surfaces.

The name of these cells owes to the specialized organelle located at their tip—the hair bundle. The organelle's complex structure and operation, which is enhanced by an active process, are crucial for an organ's sensory function. In my talk I will tell about a few open physical problems related to the development and operation of the hair bundle.

The reborn interest in quantum physics has created a unique framework in which theoretical and experimental physics can fruitfully dialogue with information theory and computer science. The School intends to convey such an interdisciplinary spirit to graduate students and young researchers and will focus upon three themes, i Quantum dynamics in the macro-world: quantum coherence and entanglement ii Quantum theory as an interdisciplinary paradigm: quantum information and simulation iii Quantum physics as a technology boost: quantum devices and machines emphasizing their inter-relations and covering the relevant background material, that will be taught by nine renowned experts in the above fields.

The School is followed by a more specialized Workshop in which students attending the School are invited to participate. In the limit of an infinite lattice, this question can be formulated in terms of conformal field theory CFT. For the so-called minimal models the problem was solved more than 30 years ago, by using that the existence of singular states implies that the correlation functions must satisfy certain differential equations.

This settles the issue for models defined in terms of local degrees of freedom, such as the Ising and 3-state Potts models. However, for geometrical observables in the Fortuin-Kasteleyn cluster formulation of the Q-state Potts model, for generic values of Q, there is in general no locality and no singular states, and so the question remains open.

As a warm-up to solving this problem, we discuss which states propagate in the s-channel of such correlation functions, when the four points are brought together two by two. To this end we combine CFT methods with algebraic and numerical approaches to the lattice model. Such global and quantitative knowledge is necessary to define the range of possibilities i.

Furthermore, competition between TFs for binding sites is thought to be an important mechanism for driving cellular differentiation with changes in the stoichiometry between LS-TFs being considered as the central mechanism underlying cell fate choice. We measure RNA-seq transcriptomic expression and SRM proteomic of a time series hematopietic stem cells differentiation into red blood cells. To study the data, first we perform a bioinformatics analysis of our samples to identify the most relevant genes.

Second, we build a Gene Regulatory Network GRN of those genes based on previous knowledge and correlations in our time series. Fourth, we perform some knock-down experiments to validate our model. Our results show new interactions between genes and an accurate quantitative description of red blood cell development. Many complex systems in physics, biology, engineering and economics are characterized by a large number of interacting degrees of freedom giving rise to a non-trivial collective behavior.

The theoretical and computational tools for a quantitative analysis of complex systems are often rooted in modern statistical, quantum physics. The Spring College on the Physics of Complex Systems gives students the opportunity to get in touch with a selection of topics at the forefront of research during an intensive 4-week program. It consists of 5 courses of 9 lectures each, followed by final written tests.

Candidates are required to solicit recommendation letters to be sent by their supervisors in support of their application. Participants should have an adequate working knowledge of English. As a rule, travel and subsistence expenses of the participants should be borne by their home institutions. However, limited funds are available to partially support some participants, who are nationals of, and working in, a developing country, and who are not more than 45 years old.

Such support is limited and candidates should make every effort to secure support for their travel, at least partial. Attendance of lectures and completion of the final written tests are mandatory for those who are granted ICTP funding. Attendance is monitored regularly. Grading system: Each course will be graded on a scale from 0 to Marks higher than 10 correspond to pass. A final grade will be given for the overall Spring College with the following scale: E- Excellent - 5 exams passed A- Very Good - 4 exams passed B- Good - 3 exams passed C- Sufficient - 2 exams passed F- Fail - 1 or no exams passed The overall grade of participants will be published on the Spring College webpage.

The Workshop follows a School of the same title focussing from a more specialized perspective upon the same three topics: i Quantum dynamics in the macro-world: quantum coherence and entanglement ii Quantum theory as an interdisciplinary paradigm: quantum information and simulation iii Quantum physics as a technology boost: quantum devices and machines. Aim of the Workshop is to bring together experts that will present their latest developments thus providing all participants, among them students who attended the School, with a unique venue for sharing and discussing novel trends and ideas, integrating the fundamentals with the ongoing state of the various disciplines.

The School focuses mainly on some fundamentals in Atmospheric science ATMS , Remote sensing, Aeronomy, and Climate science as well as their respective processes, dynamics and interaction with other atmospheric coupling processes. At the end of the school,we intend to achieve the following: - To give a road map for career opportunities in Physics and Mathematics with main focus in Geophysics ATMS , re-orientate upcoming research scientist and also re-define careers as far as ATMS study is concern.

As well as stimulating intellectual growth to help students develop interest in ATMS research. These moduli spaces are in general very singular, but they carry a perfect obstruction theory they are virtually smooth. This gives virtual versions of many invariants of smooth projective varieties. Such virtual invariants occur everywhere in modern enumerative geometry, like Gromov-Witten invariants and Donaldson Thomas invariants, when attempting to make sense of the predictions from physics.

We conjecture that the Vafa-Witten formula is true for the virtual Euler numbers. We confirm this conjecture in many examples. Then we give refinements of the conjecture. Our approach is based on Mochizuki's formula which reduces virtual intersection numbers on moduli spaces of sheaves to intersection numbers on Hilbert schemes of points.

Then I will show some of its recent applications in classical algebraic geometry, including a new upper bound for the number of global sections of sheaves on K3 surfaces and computing higher rank Clifford indices of curves on K3 surfaces. In this talk, I will first show how Bayesian machine learning can be combined with mathematical logic specifically, temporal and spatio-temporal logic to provide effective tools to analyse the behaviour of complex systems, unveiling their emergent properties, and to tackle system design parameter synthesis, and model identification.

In the second part of the talk, I will discuss some work in progress, extending the previous ideas to tackle related problems like: automatic learning of model abstractions, using also Deep Neural Networks, with applications in multiscale modelling in systems biology and in geophysics, and learning of logic-based classifiers in the context of explainable Al. Tatyana Sharpee. The talk on Hyperbolic geometry and symmetry breaking in neural circuits will take place in the Euler Lecture Hall, on Friday 1 March at Sharpee has been elected Fellow of the American Physical Society for "advancing our understanding of how neurons represent sensory signals and make decisions".

Sharpee's work aims to develop a unifying theory of how biological systems process information. Specifically, she is uncovering how animals sense and adapt to their environment, as well as make predictions and decisions. To do this, she applies methods from physics, mathematics and information theory to chart the principles by which the brain's billions of neurons exchange energy and information.

Abstract: A long standing idea in neuroscience is that the brain is adapted to the statistics of signals from the natural environment, and in some cases, as in the sense of smell, the brain and the natural environment have co-evolved together. I will first discuss how hyperbolic geometry can help provide coordinates for natural odors that offers insights into how we perceive smells.

Then, I will briefly summarize our progress in mapping the hierarchy of transformations for visual signals in the brain. Finally, I will discuss how symmetry breaking and ideas from the theory of phase transitions can help systematize complexity of cell types that together provide accurate analogue representations of incoming signals using binary outputs. I will conclude with applications of these ideas to biological problems outside of neuroscience.

The Non-Equilibrium Steady State emerging in such systems has been recently conjectured to be described by a Generalised Hydrodynamic theory. We develop a mathematically rigorous method to calculate the asymptotics of observables at large times and distances and show how certain predictions of this conjecture can be derived from analyticity properties of the Slavnov formula for Bethe state overlaps. These pressures, combined with climate change and variability, have many environmental impacts.

Regional climate models include now capabilities such as interactive coupling with oceans, surface hydrology, atmospheric chemistry and biogeochemical cycles. Combined with process study and observation analysis, such systems are interesting frameworks for impact assessments over West Africa.

This point has motivated the recent development of a supercomputing center at the University of Abidjan. In this context, the school proposes theoretical and practical computing sessions on regional climate and environmental modeling. English will be the spoken language during theoretical and practical sessions. Topics: Basis of regional climate and Earth System modeling Examples of climate and Earth system studies over sub-Saharan Africa Extensive hands-on regional climate and Earth system modeling sessions using HPC facilities Review and discussion of on-going projects involving climate and Earth system modeling over sub-Saharan Africa Beyond the school : Identification of regional working groups, projects and networks Abidjan - Cote d'Ivoire ICTP pio ictp.

Tutorial lectures by experts in field are planned in the beginning of each topical session. A poster session will also be held. Topics Thermoelectricity is now a subject of rising interest caused by the fundamental significance, technological development in creating new materials and applications both in physics and engineering.

The purpose of this Conference is to bring together experts in fundamentals of thermoelectricity as well as those of materials science and applications. They are important in our everyday life, in many industrial applications and in the prevention of geophysical hazards.

In physics, mainly in the realm of non-equilibrium statistical mechanics, granular systems are an inspiring source of phenomena and questions. The simplest model of granular material is a "fluid" made of inelastic hard spheres. For such a system - in the dilute limit - the classical program of kinetic theory Boltzmann equation, Chapman-Enskog-based hydrodynamics, and much more has been developed by physicists and mathematicians in the last decades.

In this seminar, after recalling a few key results of such a theoretical activity, I will focus on a series of experiments made in my laboratory in the last 5 years. They concern the statistical properties of a massive probe immersed in a steady state granular fluid.

The fluid is obtained by vibro-fluidization of a large number of solid spheres of different materials, while the probe is a rigid rotator whose angular displacement and angular velocity are the key observables. In the dilute limit one conjectures a Markovian approximation for the rotator's dynamics which explains many aspects of the experiment, including a qualitative understanding of "motor effects" in the presence of rotator's geometrical asymmetries.

Further noticeable facts appear when the granular fluid is no more dilute, mainly anomalous diffusion and non-monotonous viscosity. References: A. Gnoli, L. Giacco, E. Lippiello, M. Pica Ciamarra, A. Puglisi, A. Sarracino Controlled viscosity in dense granular materials Phys.

Scalliet, A. Gnoli, A. Vulpiani Cages and anomalous diffusion in vibrated dense granular media Phys. Petri, F. Dalton, G. Gradenigo, G. Pontuale, A. Sarracino, A. I will begin with a 30 min review lecture on my past research results, and current research interests. I will then give a 30 min trial lecture on the fundamental theorem of Calculus, aimed at first year undergraduates. Comments and suggestions are very welcome!

This warming was not directly forced by local heat exchange with the atmosphere, and also wind stress in the tropical Atlantic that drives oceanic upwelling rather increased than decreased. Remote forcing from outside the tropical Atlantic might thus have played a role. In this presentation, the contribution of different potential drivers is assessed utilizing a series of hindcast and sensitivity experiments with a high-resolution ocean model.

It is shown that both an increase in the inflow of warm Indian Ocean waters through Agulhas leakage and a slowdown of the Atlantic Meridional Overturning Circulation AMOC can lead to a general warming in the tropical Atlantic ocean. Compared to a control simulation, an experiment in which Agulhas leakage was artificially increased by strengthening the Southern Hemisphere Westerlies shows a pronounced warming trend in the upper tropical Atlantic Ocean.

The SST pattern that arises in response to an idealized slowdown of the AMOC due to enhanced freshwater input around Greenland is reminiscent of the observed warming trend. In this context, the role of the Atlantic subtropical-tropical cells STCs and in particular the strengthening of the northern cell is discussed.

Mean pathways and transports between the subtropical and tropical Atlantic Ocean are also inferred from Argo observations for the last decade. In this talk I will introduce the main motivations to explore theories of gravity alternative to General Relativity. In particular, I will focus on the popular class of scalar-tensor theories, discussing their formulation and how to parametrize them efficiently on a cosmological background.

This framework is optimal to describe large class of models at once, which makes it ideal to test deviations from the standard cosmological model. I will discuss some of the main results in the literature, as well as current constraints on the parameters. Finally, I will speculate about the future of alternative theories of gravity and show what we can realistically expect from future surveys.

It consists of a chain of sites with nearest-neighbour coupling under Floquet time evolution. Quantum states at each site span a q-dimensional Hilbert space and the time evolution is specified as a random circuit, whose local gates are random in space but periodic in time Floquet. I will discuss a diagrammatic formalism useful to average over realisations of the random circuit.

This approach leads to exact expressions in the large-q limit and sheds light on the universality of random matrices in many-body quantum spectra and the ubiquitous entanglement growth in out-of-equilibrium dynamics. I will also discuss universal behaviour which goes beyond random matrix theory and the manifestation of ergodicity breaking which can emerge at finite q. Current efforts to derive constraints on primordial physics and cosmological parameters from Large-Scale Structure observations are mainly based on summary statistics, for example n-point correlation functions of the density field of biased tracers such as galaxies.

An alternative method, that in principle allows to make use of the information coming from all n-point functions, is that of forward-modeling the galaxy density field itself. Algorithms are used as metaphors for complex biological processes such as organismal development.

Here we make this metaphor rigorous for the synthesis of the branched carbohydrates known as glycans. In eukaryotic cells including human cells glycans are synthesized by collections of enzymes in a factory-line system of compartments known as the Golgi apparatus.

The Golgi can stochastically convert a single input molecule to a heterogeneous set of possible outputs; yet in living cells the observed diversity of the outputs is very small. Here we resolve this paradox by borrowing from the theory of algorithmic self-assembly. For a large class of stochastic models, given an input and a target output we either prove that the output cannot be algorithmically synthesized from the input, or explicitly construct a succession of Golgi compartments that achieves this synthesis.

Our theoretical analysis allows us to infer the causes of heterogeneity in real glycan datasets. String compactifications are essential for connecting string theory to low energy particle physics and cosmology. Moduli stabilisation gives rise to effective Lagrangians that capture the low-energy degrees of freedom. Much recent interest has been on swampland consistency conditions on such effective field theories - which low energy Lagrangians can arise from quantum gravity?

I describe work on developing a holographic understanding of moduli stabilisation and swampland consistency conditions. I focus in particular on the Large Volume Scenario, which is especially appealing from a holographic perspective as in the large volume limit all its interactions can be expressed solely in terms of the AdS radius, with no free dimensionless parameters.

ICTP pio ictp. Candidates should have a specific career interest in, or knowledge of nuclear security, although their academic and technical background may vary. School curriculum will include the following topics: International legal framework supporting nuclear security Identification of, and measures to address, threats against nuclear material, facilities, and activities Instruments and methods for physical protection of associated facilities. Threat and risk assessment, detection architecture, and response plan for material out of regulatory control Radiation detection instruments and detection strategies and techniques Transport security for nuclear and other radioactive material Nuclear forensics and radiological crime scene management Nuclear security culture, computer and information security, and security at major public events Measures for systematic nuclear security human resource development at the national level Additionally, there will be practical exercises designed to incorporate the acquired knowledge into national planning and procedures to protect against threats to nuclear security.

Upon successful completion of each module, the system will generate a personalized certificate. Please submit all certificates of completion as pdf or jpg files with the online application form for this School. In case of technical issues, please contact: nsnselearning iaea. The ceremony starts at The new Institute for the Theory of Quantum Technologies has been established as a joint venture to address the significant and growing number of researchers working in the field of the so-called "Quantum Technologies" in universities and research institutions in the region, taking into account the high quality of scientific production in this field and the need to unite and coordinate activities and skills into an Inter- organizational Institute.

The talk will be livestreamed from the ICTP website. ABSTRACT: Quantum many-body systems are very hard to simulate, as computational resources time and memory typically grow exponentially with system size. However, quantum computers or analog quantum simulators may perform that task in a much more efficient way.

In this talk, I will first review some of the quantum algorithms that have been proposed for this task and then explain the advantages and disadvantages of analog quantum simulators. I will also describe the development of tensor network methods for that task, as well as a theoretical proposal to solve quantum chemistry problems with an analog simulator based on atoms in optical lattices. Light refreshments will follow the event. All are welcome to participate.

The activity is intended for theoretical physicists or mathematicians with knowledge of quantum field theory, general relativity and string theory. Three talks are scheduled, with an introduction by Prof. Dam Thanh Son "From fractional quantum Hall effect to field-theoretic dualities" Abstract: The fractional quantum Hall fluid is one of the most nontrivial strongly interacting fluids of nature.

Many phenomena occurring in this fluid can be explained by postulating a new type of quasiparticle - the composite fermion. I will also describe physical consequences of the new theory Prof. Dam Thanh Son was born in Hanoi, Vietnam in He subsequently held postdoctoral appointments at the University of Washington and the Massachusetts Institute of Technology and faculty appointments at Columbia University and the University of Washington. He is a member of the U. In this state, electrons quantum entangle with each other and conduct electric current collectively rather than one-by-one, as in an ordinary metal like copper.

Quantum entanglement also has remarkable effects near the horizon of a black hole, leading to the Bekenstein-Hawking black hole entropy, and the Hawking temperature. Surprisingly, there is a deep connection between the nature of quantum entanglement in strange metals and black holes, and this has led to mutually beneficial insights. This connection is simply described by the Sachdev-Ye-Kitaev model, which leads to a common set of equations describing the quantum dynamics of certain strange metals and black holes.

He held professional positions at Bell Labs — and at Yale University — , where he was a Professor of Physics, before returning to Harvard where he is now the Herchel Smith Professor of Physics. Xiao-Gang Wen "Topological order and non-Abelian statistics" Abstract: Topological order describes a new kind of quantum matter ie matter at zero temperature beyond symmetry breaking.

In this talk I will concentrate on one of the exotic properties of topological order in 2 space dimension: non-Abelian statistics, which is a generalization of the familiar Bose and Fermi statistics. It turns out that non-Abelian statistics allows us to us topologically ordered materials to perform topological quantum computations.

Xiao-Gang Wen is a theoretical condensed matter physicist, recognized for his work on introducing the notion topological order and developing the theories of this new class of quantum states of matter. Since , the study of topological states of matter slowly became a very active new field in condensed matter physics.

Wen was born in Beijing, China. He went to the University of Science and Technology of China after the reopening of universities in China in Through T. D degree in the field of superstring theory under Prof.

During his postdoctoral period in ITP, Santa Barbara, he started to pursue research in condensed matter physics. Dirac, one of the greatest physicists of the 20th century and a staunch friend of ICTP. It is awarded annually on Dirac's birthday, 8 August, to scientists who have made significant contributions to theoretical physics.

The events will be livestreamed from the ICTP website. His area of research is theoretical high-energy physics, in particular quantum field theory and string theory. Biosketch Eliezer Rabinovici was born in Jerusalem in The Synchrotron Light source will be used by researchers to study a large variety of scientific questions.

It is currently being constructed in Jordan and preparations are underway for scientific activities to start. Rabinovici will describe from a very personal view point how this project has come into being starting in The talk will be livestreamed from the ICTP website and will be followed by light refreshments.

All are welcome to attend. We study the implications of 't Hooft anomaly i. The bootstrap bounds depend dramatically on the 't Hooft anomaly. We also consider theories with a U 1 global symmetry. His great contributions to theoretical physics, including the discovery of D-branes —— a type of membrane in string theory —— have led to advances in the understanding of string theory and quantum gravity.

His work touched the lives of many ICTP scientists, from the hundreds who attended his lectures to those who worked directly with him. This talk will focus on his contributions to the circle of ideas that led to M-theory in the late s, especially his work of the s on supermembranes '86 and D-branes and T-duality ' This will be part of a survey of the changing role of branes in physics, with personal commentary on various related topics such as M-branes, U-dualities, black branes in supergravity and string theory.

The lecture will be livestreamed from the ICTP website. The aim of the workshop is to answer cutting edge questions about dark matter with the most advanced techniques that data science provides us with. The researchers coming to this workshop will bring together expertise in particle physics, astrophysics, cosmology, statistics and information science machine learning and plenty of time will be devoted to discussions and brainstorming.

Workshop Format The workshop will have plenary sessions covering the main topics in the field of machine learning and dark matter. In addition, there will be a limited number of parallel talks. We encourage scientists interested to present their work on applications of machine learning to dark matter problems to submit their abstracts.

The last day of the meeting will be dedicated to the discussion related to the DarkMachines organisational issues progress of the white paper, summary of computational challenges etc. For any queries please e-mail smr ictp. There is no registration fee for this activity. In order to have a late time behavior consistent with Lloyd's bound one is forced to have a cutoff behind the horizon whose value is fixed by the boundary cutoff.

Using this result we compute holographic complexity for two dimensional AdS solutions where we get expected late times linear growth. It is in contrast with the naively computation which is done without assuming the cutoff where the complexity approaches a constant at the late time. These are applied to understand some physiological processes and anatomical structures.

We show our research about the detection of bone fractures by bioimpedance measurement. We deal with the development of a non-invasive technology to this object: model and simulations, electronic development and clinical measurements. Current theoretical and numerical techniques, however, have limited capabilities, especially when it comes to studying gapped excitations. The method can readily access both thermodynamic and spectral properties. I will focus in particular on quantum spin ice and its photon and vison excitations.

After benchmarking the method against existing results on photons, I will show how it can be used to characterise visons and their thermodynamic behaviour. We find that visons form a weak electrolyte -- in contrast to spinons in classical spin ice. That is, vison pairs are the dominant population at low temperatures. This is reflected in the behaviour of thermodynamic quantities, such as pinch point motifs in the relevant correlators. Moreover, visons appear to strongly hybridise with the photon background, a phenomenon that likely affects the way these quasiparticles may show up in inelastic response measurements.

I will conclude with a brief discussion of the significance of our results and an outlook on further applications of our method. Examples include ultra-high-precision measurements of inertia, gravity and rotation sensing []. Unfortunately, interaction time has to be very long in order to achieve very high sensitivities, resulting in interferometers often ten or even one hundred meters high or in the experiments having to be carried out in micro gravity on the space station[4—7]. Coherent matterwave guides and atomtronics will make possible highly compact devices having much extended interaction times and thus much increased sensitivity[8], which can be exploited both for fundamental and practical measurements.

Here, we demonstrate [10] for the first time extremely smooth, coherence-preserving matterwave guides based on time-averaged adiabatic potentials TAAP [9]. We do so by guiding Bose-Einstein condensates BEC over macroscopic distances without affecting their internal coherence: We use a novel magnetic accelerator ring to accelerate BECs to more than 16x their velocity of sound.

The BECs can also be released into the waveguide Fig. This will raise the spectre of compact, portable guided-atom interferometers for fundamental experiments and applications like gravity mapping or navigation. References: [1] Gustavson, T. Precision rotation measurements with an atom interferometer gyroscope. Precision measurement of the Newtonian gravitational constant using cold atoms. Nature , — Quantum superposition at the half-metre scale.

Bose-Einstein condensation in microgravity. Science , — Dual matter-wave inertial sensors in weightlessness. Cold atom laboratory mission system design. Focus on atomtronics-enabled quantum technologies. New J. The human ability to solve complex spatially and temporally extended social dilemmas is a key hallmark of our intelligence.

Conversely, the cumulative nature of social tasks may provide an automatic path towards increasingly powerful cognitive abilities, under appropriate constraints. In this talk, I will argue for the ubiquity of social dilemmas from some simple principles, and show how complex spatially and temporally extended dilemmas may be solved by including appropriate inductive biases in state-of-the-art deep reinforcement learning agents. This approach simultaneously advances the fields of behavioural economics and artificial intelligence.

I shall end with an outlook on how these fields might interact more closely in the future, both to improve our understanding of multi-agent dynamics in human society, and to construct generally intelligent artificial systems. In recent years the physics of jamming has gained momentum in several interdisciplinary contexts, going from Machine Learning to Inference, Ecology and beyond. I will introduce the Simplest Model of Jamming and show how jammed points share peculiar critical properties, highly universal and deeply related glass physics.

After discussing the implications of the vicinity to jamming in a glassy phase, I will consider the problem of Information Storage in Machine Learning. Going from the single neuron to multilayer networks, the capacity limit becomes a jamming point. Heating sandwiches and circulation pancakes: What drives the evolution of tropical anvil clouds? The main aim of this review talk is to present the state-of-the-art on the study of particle physics phenomena utilizing quantum computers and quantum simulators.

In the first part of the seminar, I will introduce the concept of quantum simulation, following Feynmann's original vision, and discuss its applications in the field of ultracold atoms in optical lattices. Until few years ago, these applications had focused exclusively on models of relevance to condensed matter physics. I will present the key motivations that sparked a strong interest in quantum approaches to particle physics problems, in particular, in the context of lattice gauge theories.

The first concrete experimental realizations in the context of the Schwinger mechanism will also be presented. Some introductory references to the topic written by HEP experts are: J. Preskill, arXiv. Wiese, Ann. Montangero, Contemporary Physics 57, In regular cases the problem is reduced to compute the number of points over finite fields, but they also work in singular cases or when explicit counting formulas were not found.

We use the spectral information of the transfer operators associated to these partially hyperbolic maps to describe the deviation of ergodic averages and solutions of the cohomological equation for the parabolic flow. We also prove that this unique MME is fully supported, can be obtained from limiting distrobution along closed orbits and the flow is mixing with respect to it.

As a consequence we have that the closed orbits are dense in the unit tangent bundle. We also formulate conditions under which these results generalise to higher dimension. The algebraic counterpart of the notion of contractions of Lie algebras is given by degenerations of Lie algebras. The main attention in the talk is paid to the practical computation of contractions of Lie algebras. We present a wide list of necessary conditions for the contraction existence.

We also plan to present the complete description of contractions of Lie algebras of dimension not greater than four, of five- and six-dimensional nilpotent algebras and of almost Abelian Lie algebras over both the complex and real field. We then partition this class into two disjoint normalized subclasses and derive their corresponding equivalence groups. This class also turns out not to be normalized. We partition it into three normalized subclasses, and this allows us to apply the algebraic method and solve each subclass completely for space dimension two.

The group classification in each involves three integers that are invariant with respect to the adjoint action of the equivalence transformations. As a result, a full list of Lie symmetry extensions together with their corresponding families of potentials in the class V is presented.

Around participants are expected, who are advanced undergraduate physics students and faculty members from universities around Afghanistan. The school will start 9am and we will finish by pm. Please select the correct times at the top of the page as times may be shown in European Local Time. Then I will explain how this proof can be transported to the elliptic Hall algebra situation, where the five term relation implies identities between Macdonald polynomials conjectured by Bergeron and Haiman.

This is a joint work with Adriano Garsia. This school aims to give early-career scientists an introduction to a variety of topics that help them to write efficient, clean, maintainable and long-lived code that is useful beyond solving an immediate problem.

In a mixture of talks and many hands-on sessions, the focus lies on showing best practices and building fundamental skills in creating, extending and collaborating on modular and reusable software. Certificate to participant s at the end of the Workshop shalls be only upon successful contribution to the final development projects.

Grants: A limited number of grants are available to support the attendance of selected participants, with priority given to participants from developing countries. Daily lectures will be given on reanalysis, subseasonal to seasonal forecasting, and predictability, including lectures on ENSO-driven variability and teleconnections. Each afternoon will be spent carrying out hands-on exercises using state-of-the-art products now available on the Copernicus climate data store hosted at ECMWF.

These exercises will demonstrate how to access files through python scripts or perform analysis directly at ECMWF using the python-based toolbox. For visit-related pre-arrival information please see here. Click here for transport options from several airports to ICTP.

For other practical details, incl. Rooted in the early history of quantum mechanics, the field of Quantum Measurement has evolved from a purely mathematical formulation to an active research topic, embedded in a broad spectrum of subfields, ranging from quantum optics to condensed matter physics. It involves a variety of techniques, including quantum limited, fast, non-invasive measurements.

As a versatile tool in an advanced quantum toolbox, quantum measurements could be empowered for the design of novel protocols, including active and passive error correction codes, quantum feedback control, precision measurements, quantum state discrimination, quantum metrology, quantum simulations and more. In this context of diversified research, this meeting will bring together expert theorists and experimentalists, employing different facets of quantum measurement, with the goal of identifying common themes, and cross-fertilizing with new ideas.

A Poster Session will also be organized, and interested candidates are invited to upload a short abstract of their proposed posters during the online application process max. Topics Foundations of quantum mechanics Quantum measurement in information processing Quantum measurements in nanodevices Quantum measurement and thermodynamics Quantum metrology and precision measurements Speakers A.

Louis, USA A. Online application is no longer possible deadline expired 10 February This includes: study of motility of the bacterium E. I also plan to discuss possible future interdisciplinary research projects arising from the presented results. In this last regards, I'm very much interested in having the audience feedback.

Recently, a striking development has emerged in complex systems research: bringing together concepts from statistical and nonlinear physics allowed for the prediction and discovery of a novel effect, called the chimera state. Chimera states are a nice example of unexpected, counterintuitive dynamics where the interplay of synchronization, long-range interactions and pattern formation mechanisms are essential.

The aim of the school is to review the progress in this field, where physics and applied mathematics strongly overlap with life sciences; find new interconnections and general analytic, numerical, and statistical approaches; and identify novel directions and cross-disciplinary applications. The targeted audience includes advanced undergraduate and PhD students, as well as post-doctoral fellows and junior researchers. Special attention will be devoted to the training of scientists from developing countries in line with the fundamental mission of the AS-ICTP.

The workshop brings together a mix of world-leading experts in the field and young researchers to cover most important recent achievements in understanding of complex structures and the nature of synchrony in nonequilibrium systems. The properties of laboratory, industrial and astrophysical plasmas are determined by numerous atomic and molecular processes occurring under a wide range of physical conditions, generally far from equilibrium. The use of spectroscopic measurement in plasmas has been demonstrated to provide a powerful diagnostic technique, giving information on properties such as temperature, density, local plasma fields, electron energy distribution and so on, which is hard to obtain accurately by other means.

The purpose of this School is to provide training for plasma physicists, plasma spectroscopists and astrophysicists for fusion and other applications by bringing together experts in experimental and theoretical plasma spectroscopy within the unique atmosphere and facilities of the ICTP. There is a particular focus on knowledge-transfer between researchers from developed and developing countries.

These will be the basis for input into the upcoming IPCC report, which is based on published scientific articles. It is important that developing country scientists are directly involved in this process, and this workshop will provide a forum to exchange ideas on the analysis of the CORDEX-CORE experiments, and to plan for a series of scientific publications.

The workshop will also include a special event on 30 years of Regional Climate Modeling. This will be done by presenting series of lectures for the broad auditorium of young researchers e. Invited lecturers will be world-wide well-known experts on the above topics. The lectures to be presented will be focused on most advanced topics of condensed matter physics which are relevant to novel materials for energy conversion, quantum information and medical applications.

The goal of the lectures will be twofold, educational and expert-level discussions of novel results. The latter will be done both during the panel lectures and informal seminars. Casati University of Insubria, Italy A. Gefen Weizmann Institute, Israel A. Geim The University of Manchester, U. Glazman Yale University, U. Marcus University of Copenhagen, Denmark T. Molenkamp University of Wurzburg, Germany F. Oreg Weizmann Institute, Israel F. Peeters University of Antwerp, Belgium S.

Sachdev Harvard University, U. I will discuss how the presence of boundaries may effect these terms. Pedestrians move following own will and objectives: this amounts in huge variability in the motion, observable even in diluted conditions. Despite such individual unpredictability, ensemble-level universal physical features emerge and encompass common and rare fluctuations of both the solo and the interacting dynamics. Reaching a quantitative understanding of these features is a major scientific challenge with deep societal impact, e.

We investigate from observational experiments held in real-life settings stations, festivals, museums and in diluted conditions statistical features of pedestrian motion. We leverage on datasets including millions of trajectories acquired with and without external influencing stimuli i. On this basis, we quantify the PDFs of individual velocity, position, body rotation and mutual-contact-avoidance "social" forces - possibly in dependence on stimuli.

We propose an active-Brownian particle model of the dynamics based on Langevin-like equations statistically quantitative. This work is in collaboration with: J. Meeusen, C. Lee, A. Muntean, R. Benzi, F. Joint with Piotr Pstragowski. In this talk, I shall show that these features are present in a model with no quenched disorder at all — interacting spinless fermions on a 1D lattice in a strong electric field — and discuss how to interpret this fact.

Its conceivable that there is an undiscovered neutral stable particle made of quarks uuddss , with mass near twice the proton mass. If so, it could be the dark matter. I will discuss how it can be that such a particle could have gone unnoticed and how to detect it. Remarkably, a particle with these properties can both explain the observed abundance of dark matter at high accuracy, and account for the observed sigma deficit in primordial Li7 compared to the prediction of the standard cosmological model.

Even if such a particle does not exist, or exists but is not the dark matter, investigating the problem provides a fascinating tour through modern cosmology and particle physics - which will be presented in a manner accessible to non-experts.

I shall also discuss a Kobayashi-Hitchin type correspondence for a special case a dimensional reduction to Riemann surfaces. FPGA-based devices are characterized by its low-cost along with a huge versatility to implement different concurrent tasks and critical activities such as hard real-time data acquisition, processing and transmission.

These features make these devices very attractive for frontier scientific applications. The workshop will provide a thoroughly review of present state of the art of FPGA-based architectures and design methodologies with emphasis on high performance computational applications. The workshop will consist of about 65 hours of theoretical lectures and assisted hands-on activities. The selected faculty will be composed by lecturers from prestigious universities, hi-tech companies and research institutions.

The workshop will be primarily addressed to researchers, teachers and advanced students who need to master modern FPGA-based technologies for their scientific and academic activities. Design methodologies, hardware description languages, and synthesis tools.

High level languages and high level synthesis. Real Time operating systems. Fine-grained reconfigurable computing. FPGA-based Systems-on-Chip: design for scalability and portability Physical implementation, optimization, and FPGA debugging techniques The workshop will include experimental sessions with hardware development platforms and software design tools. It will be also explored possible interdisciplinary collaborations. Christopher Pereira , Boise ID. Christopher Pereira , Fullerton CA.

Christopher Pereira , Holland MI. Virtual Recruiter at ManpowerGroup. Senior Designer at J. Evans Engineering. Christopher Pereira. Christopher Santos Pereira. Christopher John Pereira. Christopher Austin Pereira. Christopher Pereira Basketball Highlights. Forexmentor Master Trader Summit Worms Armageddon - O Filme. Christopher Donatus Pereira. Christopher Sa Pereira. Christopher Lawrence Pereira. Christopher Dolphy Pereira. Christopher Pereira St. Thomas Aquinas Secondary School Christopher Chris Pereira.

Chris Pereira , Coral Springs, Fl. You can find arrest records for Christopher Pereira in our background checks if they exist. View Profile. Mentions about a name: Christopher Pereira. North Carolina - Authorized to practice law Lived in:.

Tour Manager Position:. Qlc Feb to Jul Software developer. Rheal software pvt. Saberpoint e-services Feb to Feb Software developer. Advanced hardware supply - Boise, ID to Warehouse branch manager. Wal-mart - Meridian, ID to Overnight and warehouse manager. Parkland soccer club - Parkland, FL to Volunteer soccer buddy. Dyncorp international, tarin kowt, afghanistan Jun to Property admin.

Camp beuhring Sep to Feb Finance specialist. Property department - csa ltd Dec to Sep Senior property administrator. Mysore University - Bangalore, Karnataka to B. Virtual Recruiter at ManpowerGroup Location:. Evans Engineering Position:. Evans Engineering, P. Skilled Experts and Professionals Architects Designer. IT Consultant.

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Each year, ICTP organizes more than 60 international conferences, workshops, and numerous seminars and colloquia.

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View On Udemy. Sign Up Now. Its easy to learn from Luciano, he is very patient and will not stop until you understand. I am only 6 weeks into the mentorship and I am already making profit with what I have learned great experience so far. Lisana Macewan. Was a wonderful experience, Luciano is a patient and excellent teacher, before his mentor-ship program I had only heard about Forex, now I understand all concepts and I am trading profitably thanks much.

Jashan Danias. Excellent Course!! I was drawing Trend lines wrong, I was using Fibonacci wrong this course has taught me so much, thank you for a great course. Simon Awan. I enjoyed the course and look forward to revisiting the lectures when I am more advanced. Gregory Thomas. Thanx Luciano. Paula Sammut. Pro Trader A. Access To Market Analysis Videos. His YouTube channel is also popular with new traders, where he dives into the basics and complexities of foreign exchange.

Nick is very open about his challenges and successes, making him an excellent mentor to follow. A1 is a great program to join if you want access to a good trading network and access to market development news. Ezekiel Chew is the founder of Asian Forex Mentor, a training group for forex traders. His mentorship has widely been considered some of the best in the industry, as Chew has the experience and know-how that many forex influencers do not quite have.

Chew is the main forex coach at Asian Forex Mentor. Through his program, traders can enjoy a comprehensive and personalized learning approach. The course itself covers all of the basics and complexities of forex, starting from the very basics of forex. Traders can also learn how to identify trading systems, read chart patterns , use trading tools, interpret charts, understand trade management methods, and so much more. This global program is quite valuable and beloved around the globe in over fifty countries.

When taking on this program, learners will learn specifically about Japanese Candlestick analysis. Andrew breaks down the bare basics of charts and candlesticks. Marc Walton is a well-known forex trader with decades of experience. Learners will be taught about profitable trading, enjoy private coaching, and learn about the ins and outs of forex trading as a career. Marc is mostly retired from trading and now focuses more on his mentorship program. Vladimir Ribakov is a professional forex trader and coach.

His trading club is known as Traders Academy Club, and he also runs a forex blog loaded with trading educational materials. His club has grown quite a bit in recent years and offers a ton in the way of educational materials, trade ideas, chart breakdowns, and live trading room sessions.

If you want to access webinars as a beginner or advanced trader, his club is definitely worth looking into. However, due to the nature of the forex market, there is a lot of volatility and risk involved. There are even more reasons to learn how to trade in the forex market. To start, you need very little in the way of startup capital. In fact, absolutely newbies can use demo accounts to start trading forex without any risk to their capital. These often free accounts are designed to let new traders play around with fake investments and the real movement of the market, so they can be prepared for the real deal.

Just as well, forex offers a ton of time flexibility, high profitability, and high liquidity. Anybody can start forex trading, regardless of overall experience or knowledge. It is very risky, which is why following a top-notch forex mentor can help newbies improve their ability to trade with profits.

That way, you can enjoy the signals they provide, as well as social trading. Outside of that, there are some things to look for in a forex mentor. Do your research and look into reviews of their product offering, such as their forex courses or books. Rather, look into review aggregate sites and review sites for a more honest, in-depth look into the quality of their courses.

Forex can be a difficult market to get into, but it doesn't have to be. Beginner traders can benefit significantly from forex, as it can yield high profits, high liquidity, and fantastic returns. It is worth noting that forex can be volatile and risky, though. Because of this, research and study are key. New traders should be following tutorials, reading books, taking classes, and doing everything they can to learn about how forex works and what the best trading strategies are.

Another great way to get ahead in forex trading is to follow mentors. Forex mentors and educators can offer quite a bit. Many of them offer training courses for trading forex, as well as ebooks and other educational materials. Just as well, forex mentors can offer signals, advice, and social trading assistance via social media and broker sites.

Any of these mentors are worth following as a newbie forex trader. Choosing the right mentor to follow doesn't have to be difficult, either. Take the time to study reviews and ratings of their product offerings. You could also follow any of the ten forex mentors we've mentioned on social media and forex trading platforms that allow social trading.

Forex mentors often have social media accounts where they freely give out advice. Some also have free blogs with tons of information as well. The point of following a mentor comes down to education. Most popular forex educators have had years of experience trading. They likely have great strategies in place to succeed, but also have made the necessary mistakes necessary to becoming better traders. By sharing that knowledge, newbie traders in forex can get ahead.

There are a few key things to keep an eye out for before following a forex mentor or purchasing an educational product from them. To start, a good forex mentor should be trading for themselves, instead of employing other traders to trade for them. A good mentor should also be very successful at what they are teaching, and they should be very motivational and inspiring. Just as well, a good mentor should have a focus on risk management.

Just as well, a mentor should be respectful of all trading styles. Technically, no. As a beginner trader, you could theoretically learn everything you need to know about forex trading via the thousands of free resources available online. And realistically, you should be constantly doing your own research and exploring the market to gain valuable experience. However, a forex mentor can offer classes, workshops, webinars, books, and other premium materials that can be quite helpful.

In fact, many forex traders opt to follow forex mentors on platforms like Facebook, Twitter, and LinkedIn. Most forex mentors offer tons of free advice and forex signals on social media, which can be very helpful to new traders. However, you can also engage in social trading with such mentors. Brokers like eToro make it easy to locate a forex mentor or high-profile trader and match their movements in the market.

Social trading can be very beneficial to new and old traders alike, without the need to opt for a class. By continuing to browse the site or closing this message you are agreeing to our use of cookies. To help provide the content our experts and writers create to our readers for free, we receive compensation from the companies that advertise on the Traders Union website. There are two main sources of this compensation.

First , we offer paid placement of the ads. Our website does not feature all companies or products available in the market. These links may generate income for our website when you click on them. The compensation we receive from advertisers has no impact on the recommendations or advice our editorial team provides in our articles and reviews or otherwise influences any of the editorial content on Traders Union. While we work hard to provide reliable and up to date information that we think you will find relevant, Traders Union does not and cannot guarantee that any information provided is complete and makes no representations or warranties in connection thereto, nor to the accuracy or applicability thereof.

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Dalam Dunia Forex, Manipulasi Apa Yang Bisa Terjadi ? ( Episode 17 )

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