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*** Sparse image  please zoom in, or view in full screen mode in a dark room! *** This is a selfavoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex i...


*** Sparse image  please zoom in, or view in full screen mode in a dark room! *** This is a selfavoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex i...


*** Sparse image  please zoom in, or view in full screen mode in a dark room! *** This is a selfavoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex i...


*** Sparse image  please zoom in, or view in full screen mode in a dark room! *** This is a selfavoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex i...


This selfavoiding walk was generated via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex is visited twice. However, it exactly captures the essential physics of the behaviour of polymers in a good solven...


This selfavoiding walk was generated via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex is visited twice. However, it exactly captures the essential physics of the behaviour of polymers in a good solven...


This selfavoiding walk was generated via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex is visited twice. However, it exactly captures the essential physics of the behaviour of polymers in a good solven...


This is a selfavoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex is visited twice. However, it exactly captures the essential physics of the behaviour...


This is a selfavoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex is visited twice. However, it exactly captures the essential physics of the behaviour...


This is a selfavoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The selfavoiding walk (SAW) is an extremely simple model: a SAW is a walk on the lattice such that no lattice vertex is visited twice. However, it exactly captures the essential physics of the behaviour...
