ICTT Schedule | DrRyanMc.com

Monday September 23, 2024

Time	Speaker	Affiliation	Title
9:00 AM	Welcome Remarks
9:30 AM	Imre Pázsit	Chalmers University of Technology	Space- And Energy-Dependent Theory Of Multiplicity Counting In Nuclear Safeguards
10:00 AM	Liliane Basso Barichello	Universidade Federal do Rio Grande do Sul	Transport Calculation Of The Multiplicity Moments In Nuclear Safeguards
10:30 AM	Break
11:00 AM	Jean Ragusa	Texas A&M university	Sweep-Based Uncollided-Flux Treatment On Unstructured Grids
11:30 AM	Matthew O’Brien	Lawrence Livermore National Laboratory	A Simple and Fast Algorithm for Determining When Domain Decomposed Monte Carlo Particle Communication Has Finished
12:00 PM	Mario I Ortega	Los Alamos National Laboratory	Tensor Train Neutron Transport Applied To Nuclear Reactor Problems
12:30 PM	Lunch
2:00 PM	Renato Gatto	Sapienza University of Rome, Italy	Theoretical aspects of turbulence and anomalous transport in fusion plasmas
2:30 PM	M.V. Falessi	ENEA C.R. Frascati	Energetic Particle transport in fusion plasmas
3:00 PM	Fabrizio Martelli	Università degli Studi di Firenze	Anomalous Radiative Transfer through Inhomogeneous Media
3:30 PM	Break
4:00 PM	Alfio Borzi	University of Wuerzburg, Germany	Feedback Stabilization of a Linaer Kinetic Model with Collisions in a Monte Carlo framework
4:30 PM	Mario Annunziato	Università degli Studi di Salerno	On the reconstruction of potential fields by the observation of the stochastic motion, via Fokker-Planck optimal control.
5:00 PM	Giovanni Mascali	University of Calabria	Optimal charge distribution for the Vlasov-Poisson system by an external electric field

6:00 PM – Reception at La Sapienza with tour of Basilica San Pietro in Vincoli (6-7 pm) and Dinner starting at 7pm.

Tuesday September 24, 2024

9:00 AM	Omar Morandi	University of Florence	Optimal control of trapped interacting atoms by quantum phase space formalism
9:30 AM	Giovanni Nastasi	University of Enna “Kore”	Optimal Control Of A Semiclassical Boltzmann Equation For Charge Transport In Graphene
10:00 AM	Jan Bartsch	Universität Konstanz	Non-adiabatic optimal control of plasma cooling
10:30 AM	Break
11:00 AM	Samuel Olivier	Los Alamos National Laboratory	Consistent Second Moment Methods with Scalable Linear Solvers
11:30 AM	Ricardo Barros	Universidade do Estado do Rio de Janeiro	ASuccessive Over Relaxation Variant of the Partial One-Node Block Inversion Iterative Scheme for SN Transport Calculations
12:00 PM	Zachary K. Hardy	Los Alamos National Laboratory	A Second Moment Method for k-Eigenvalue Acceleration with Continuous Diffusion and Discontinuous Transport Discretizations
12:30 PM	Lunch
2:00 PM	Roberto D. M. Garcia	Instituto de Estudos Avançados, Brazil	Benchmark-Quality Results For Transport Problems Involving A Void Region In Spherical Geometry
2:30 PM	Ganapol	Retired	Double PN Benchmark Solution for the 1D Monoenergetic Neutron Transport Equation in Plane Geometry with Scaling
3:00 PM	William Bennett	University of Notre Dame	Verification solutions for a blast wave imaging problem in slab and spherical geometries
3:30 PM	Break
4:00 PM	Luis Bonilla	Universidad Carlos III de Madrid	Thermal fluctuations and stochastic transport in free standing graphene
4:30 PM	Gavin Crow	AWE Aldermaston	Two Plasmon Decay With Up-Scatter
5:00 PM	Vittorio Romano	University of Catania, Italy	Uncertainty quantification for charge transport in GNRs by means of the semiclassical Boltzmann equation
5:30 PM	Vito Dario Camiola	Università di Catania	Quantum MEP hydrodynamical model for charge transport

6:00 PM – Rooftop reception at Notre Rome Global Gateway in Honor of the Retirement of Prof. Barry Ganapol, a true friend of ICTT.

Wednesday September 25, 2024

9:00 AM	Dmitriy Anistratov	North Carolina State University	A Grey Variable Eddington Factor Reduced-Order Model for Thermal Radiative Transfer with Data-Driven Closures
9:30 AM	Nicholas A. Gentile	Lawrence Livermore National Laboratory	A Modified Frequency-Dependent Material Motion Benchmark For Thermal Radiative Transfer
10:00 AM	Thomas A. Brunner	Lawrence Livermore National Laboratory	Nonlinear Acceleration Of Thermal Radiation Transport
10:30 AM	Break
11:00 AM	Shay Heizler	Hebrew University	Generalized Non-Equilibrium Su-Olson Marshak Wave solutions
11:30 AM	Conner Myers	University of Maryland, College Park	Quantum Simulation of Non-Equilibrium Marshak Waves
12:00 PM	Menahem Krief	Hebrew University	New self-similar solutions to the Marshak wave problem
12:30 PM	Lunch
2:00 PM	Farzad Rahnema	Georgia Institute of Technology	Multigroup Cross Section Generation Method For Arbitrary Geometry And Spectrum
2:30 PM	Maiara Mentges	Instituto Federal de Educação, Ciência e Tecnologia de Santa Catarina – IFSC	The ADO solution for two-dimensional particle transport problems with exact representation of the scattering law
3:00 PM	Farzad Rahnema	Georgia Institute of Technology	Stochastic Perturbation Method For Updating Response Expansion Coefficients To Account For Changes In Material Density And Isotope Composition
3:30 PM	Break
4:00 PM	Richard sanchez	CEA	A Closure For Nonhomogeneous Renewal Statistics In Multi Dimensions
4:30 PM	Phillipe Humbert	CEA	Stochastic Neutronics Calculations Using Deterministic Transport
5:00 PM	Jacek Polewczak	California State University, Northridge	Global in time existence theorem for dense reactive mixture

Thursday September 26, 2024

9:00 AM	Eric Dumonteil	CEA	Is reactor power noise associated to a new criticality regime ?
9:30 AM	Alain Mazzolo	CEA (Université Paris-Saclay)	Probability density functions for photon propagation in a binary (isotropic-Poisson) statistical mixture with unmatched positive/negative refractive indexes
10:00 AM	Ó. López Pouso	USC, Spain	Difference schemes for the Fokker-Planck angular diffusion operator
10:30 AM	Break
11:00 AM	Ernesto Pini	University of Florence	Anisotropic light transport in scattering media
11:30 AM	Mikolaj Adam Kowalski	CEA	Computational Methods To Generate D-Dimensional N-Ary Markov Media
12:00 PM	M. Machida	Kindai University	Fractional advection-diffusion equation derived from the linear Boltzmann equation
12:30 PM	Zachary K. Hardy	Los Alamos National Laboratory	Incorporating Interior Data to Improve Radiographic Density Reconstruction