Speaker
            
    Christopher Monahan
        
    Description
The Ising model serves as a model for simple magnetic systems and as a testing ground for the study of strongly-coupled systems. The model is exactly solvable in two dimensions and can be simulated with relatively small computing resources. We investigate the phase transition of the Ising model through a novel scaling procedure first proposed to explore the phase structure of a theory with four SU(2) doublet fermions in Butt et al. (PRL 134, 2025, 031602). We present a preliminary validation of this scaling procedure by demonstrating that the procedure aligns with the known properties of the two-dimensional Ising model.
| Parallel Session (for talks only) | Theoretical developments and applications beyond Standard Model | 
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Author
Co-author
        
            
                
                
                    
                        Axel Klomparens
                    
                
                
                        (Colorado College)
                    
            
        
    
        