Gigapans

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

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  0

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  Snapshots

  Total Views

  118

  Explore Score

  1

  • Meta

    Size

    15.36 Gigapixels

    Added

    June 04, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

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

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  90

  Explore Score

  1

  • Meta

    Size

    5.47 Gigapixels

    Added

    June 04, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

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

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  93

  Explore Score

  1

  • Meta

    Size

    1.58 Gigapixels

    Added

    June 04, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

This self-avoiding walk was generated via a new implementation of the pivot algorithm. The self-avoiding 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...

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  61

  Explore Score

  1

  • Meta

    Size

    0.05 Gigapixels

    Added

    June 01, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

This self-avoiding walk was generated via a new implementation of the pivot algorithm. The self-avoiding 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...

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  79

  Explore Score

  1

  • Meta

    Size

    0.08 Gigapixels

    Added

    June 01, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

This self-avoiding walk was generated via a new implementation of the pivot algorithm. The self-avoiding 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...

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  61

  Explore Score

  1

  • Meta

    Size

    0.08 Gigapixels

    Added

    June 01, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

This is a self-avoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The self-avoiding 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...

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  71

  Explore Score

  1

  • Meta

    Size

    0.66 Gigapixels

    Added

    June 01, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

This is a self-avoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The self-avoiding 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...

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  108

  Explore Score

  1

  • Meta

    Size

    0.61 Gigapixels

    Added

    June 01, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

  • 
    

This is a self-avoiding walk sampled from the uniform distribution via a new implementation of the pivot algorithm. The self-avoiding 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...

• Stats

  Favorites

  0

  Comments

  Snapshots

  Total Views

  104

  Explore Score

  1

  • Meta

    Size

    0.53 Gigapixels

    Added

    May 31, 2012

    Date Taken

    Categories

     

    Tags

    random walk, self-avoiding random walk, self-avoiding walk, mathematics, physics, and 2 more

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