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<div class="section" id="compute-sna-atom-command">
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<span id="index-0"></span><h1>compute sna/atom command<a class="headerlink" href="#compute-sna-atom-command" title="Permalink to this headline">¶</a></h1>
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</div>
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<div class="section" id="compute-snad-atom-command">
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<h1>compute snad/atom command<a class="headerlink" href="#compute-snad-atom-command" title="Permalink to this headline">¶</a></h1>
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</div>
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<div class="section" id="compute-snav-atom-command">
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<h1>compute snav/atom command<a class="headerlink" href="#compute-snav-atom-command" title="Permalink to this headline">¶</a></h1>
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<div class="section" id="syntax">
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<h2>Syntax<a class="headerlink" href="#syntax" title="Permalink to this headline">¶</a></h2>
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<div class="highlight-python"><div class="highlight"><pre>compute ID group-ID sna/atom ntypes rcutfac rfac0 twojmax R_1 R_2 ... w_1 w_2 ... keyword values ...
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compute ID group-ID snad/atom ntypes rcutfac rfac0 twojmax R_1 R_2 ... w_1 w_2 ... keyword values ...
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compute ID group-ID snav/atom ntypes rcutfac rfac0 twojmax R_1 R_2 ... w_1 w_2 ... keyword values ...
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</pre></div>
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</div>
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<ul class="simple">
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<li>ID, group-ID are documented in <a class="reference internal" href="compute.html"><em>compute</em></a> command</li>
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<li>sna/atom = style name of this compute command</li>
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<li>rcutfac = scale factor applied to all cutoff radii (positive real)</li>
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<li>rfac0 = parameter in distance to angle conversion (0 < rcutfac < 1)</li>
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<li>twojmax = band limit for bispectrum components (non-negative integer)</li>
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<li>R_1, R_2,... = list of cutoff radii, one for each type (distance units)</li>
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<li>w_1, w_2,... = list of neighbor weights, one for each type</li>
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<li>zero or more keyword/value pairs may be appended</li>
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<li>keyword = <em>diagonal</em> or <em>rmin0</em> or <em>switchflag</em></li>
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</ul>
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<pre class="literal-block">
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<em>diagonal</em> value = <em>0</em> or <em>1</em> or <em>2</em> or <em>3</em>
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<em>0</em> = all j1, j2, j <= twojmax, j2 <= j1
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<em>1</em> = subset satisfying j1 == j2
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<em>2</em> = subset satisfying j1 == j2 == j3
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<em>3</em> = subset satisfying j2 <= j1 <= j
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<em>rmin0</em> value = parameter in distance to angle conversion (distance units)
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<em>switchflag</em> value = <em>0</em> or <em>1</em>
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<em>0</em> = do not use switching function
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<em>1</em> = use switching function
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</pre>
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</div>
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<div class="section" id="examples">
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<h2>Examples<a class="headerlink" href="#examples" title="Permalink to this headline">¶</a></h2>
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<div class="highlight-python"><div class="highlight"><pre>compute b all sna/atom 1.4 0.99363 6 2.0 2.4 0.75 1.0 diagonal 3 rmin0 0.0
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compute db all sna/atom 1.4 0.95 6 2.0 1.0
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compute vb all sna/atom 1.4 0.95 6 2.0 1.0
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</pre></div>
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</div>
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</div>
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<div class="section" id="description">
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<h2>Description<a class="headerlink" href="#description" title="Permalink to this headline">¶</a></h2>
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<p>Define a computation that calculates a set of bispectrum components
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for each atom in a group.</p>
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<p>Bispectrum components of an atom are order parameters characterizing
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the radial and angular distribution of neighbor atoms. The detailed
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mathematical definition is given in the paper by Thompson et
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al. <a class="reference internal" href="pair_snap.html#thompson2014"><span>(Thompson)</span></a></p>
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<p>The position of a neighbor atom <em>i’</em> relative to a central atom <em>i</em> is
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a point within the 3D ball of radius <em>R_ii’ = rcutfac*(R_i + R_i’)</em></p>
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<p>Bartok et al. <a class="reference internal" href="pair_snap.html#bartok2010"><span>(Bartok)</span></a>, proposed mapping this 3D ball
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onto the 3-sphere, the surface of the unit ball in a four-dimensional
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space. The radial distance <em>r</em> within <em>R_ii’</em> is mapped on to a third
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polar angle <em>theta0</em> defined by,</p>
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<img alt="_images/compute_sna_atom1.jpg" class="align-center" src="_images/compute_sna_atom1.jpg" />
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<p>In this way, all possible neighbor positions are mapped on to a subset
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of the 3-sphere. Points south of the latitude <em>theta0max=rfac0*Pi</em>
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are excluded.</p>
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<p>The natural basis for functions on the 3-sphere is formed by the 4D
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hyperspherical harmonics <em>U^j_m,m’(theta, phi, theta0).</em> These
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functions are better known as <em>D^j_m,m’,</em> the elements of the Wigner
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<em>D</em>-matrices <a class="reference internal" href="#meremianin2006"><span>(Meremianin</span></a>,
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<a class="reference internal" href="#varshalovich1987"><span>Varshalovich)</span></a>.</p>
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<p>The density of neighbors on the 3-sphere can be written as a sum of
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Dirac-delta functions, one for each neighbor, weighted by species and
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radial distance. Expanding this density function as a generalized
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Fourier series in the basis functions, we can write each Fourier
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coefficient as</p>
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<img alt="_images/compute_sna_atom2.jpg" class="align-center" src="_images/compute_sna_atom2.jpg" />
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<p>The <em>w_i’</em> neighbor weights are dimensionless numbers that are chosen
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to distinguish atoms of different types, while the central atom is
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arbitrarily assigned a unit weight. The function <em>fc(r)</em> ensures that
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the contribution of each neighbor atom goes smoothly to zero at
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<em>R_ii’</em>:</p>
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<img alt="_images/compute_sna_atom4.jpg" class="align-center" src="_images/compute_sna_atom4.jpg" />
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<p>The expansion coefficients <em>u^j_m,m’</em> are complex-valued and they are
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not directly useful as descriptors, because they are not invariant
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under rotation of the polar coordinate frame. However, the following
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scalar triple products of expansion coefficients can be shown to be
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real-valued and invariant under rotation <a class="reference internal" href="pair_snap.html#bartok2010"><span>(Bartok)</span></a>.</p>
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<img alt="_images/compute_sna_atom3.jpg" class="align-center" src="_images/compute_sna_atom3.jpg" />
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<p>The constants <em>H^jmm’_j1m1m1’_j2m2m2’</em> are coupling coefficients,
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analogous to Clebsch-Gordan coefficients for rotations on the
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2-sphere. These invariants are the components of the bispectrum and
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these are the quantities calculated by the compute <em>sna/atom</em>. They
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characterize the strength of density correlations at three points on
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the 3-sphere. The j2=0 subset form the power spectrum, which
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characterizes the correlations of two points. The lowest-order
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components describe the coarsest features of the density function,
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while higher-order components reflect finer detail. Note that the
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central atom is included in the expansion, so three point-correlations
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can be either due to three neighbors, or two neighbors and the central
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atom.</p>
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<p>Compute <em>snad/atom</em> calculates the derivative of the bispectrum components
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summed separately for each atom type:</p>
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<img alt="_images/compute_sna_atom5.jpg" class="align-center" src="_images/compute_sna_atom5.jpg" />
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<p>The sum is over all atoms <em>i’</em> of atom type <em>I</em>. For each atom <em>i</em>,
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this compute evaluates the above expression for each direction, each
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atom type, and each bispectrum component. See section below on output
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for a detailed explanation.</p>
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<p>Compute <em>snav/atom</em> calculates the virial contribution due to the
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derivatives:</p>
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<img alt="_images/compute_sna_atom6.jpg" class="align-center" src="_images/compute_sna_atom6.jpg" />
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<p>Again, the sum is over all atoms <em>i’</em> of atom type <em>I</em>. For each atom
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<em>i</em>, this compute evaluates the above expression for each of the six
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virial components, each atom type, and each bispectrum component. See
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section below on output for a detailed explanation.</p>
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<p>The value of all bispectrum components will be zero for atoms not in
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the group. Neighbor atoms not in the group do not contribute to the
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bispectrum of atoms in the group.</p>
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<p>The neighbor list needed to compute this quantity is constructed each
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time the calculation is performed (i.e. each time a snapshot of atoms
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is dumped). Thus it can be inefficient to compute/dump this quantity
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too frequently.</p>
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<p>The argument <em>rcutfac</em> is a scale factor that controls the ratio of
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atomic radius to radial cutoff distance.</p>
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<p>The argument <em>rfac0</em> and the optional keyword <em>rmin0</em> define the
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linear mapping from radial distance to polar angle <em>theta0</em> on the
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3-sphere.</p>
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<p>The argument <em>twojmax</em> and the keyword <em>diagonal</em> define which
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bispectrum components are generated. See section below on output for a
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detailed explanation of the number of bispectrum components and the
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ordered in which they are listed</p>
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<p>The keyword <em>switchflag</em> can be used to turn off the switching
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function.</p>
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<div class="admonition warning">
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<p class="first admonition-title">Warning</p>
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<p class="last">If you have a bonded system, then the settings of
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<a class="reference internal" href="special_bonds.html"><em>special_bonds</em></a> command can remove pairwise
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interactions between atoms in the same bond, angle, or dihedral. This
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is the default setting for the <a class="reference internal" href="special_bonds.html"><em>special_bonds</em></a>
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command, and means those pairwise interactions do not appear in the
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neighbor list. Because this fix uses the neighbor list, it also means
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those pairs will not be included in the calculation. One way to get
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around this, is to write a dump file, and use the <a class="reference internal" href="rerun.html"><em>rerun</em></a>
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command to compute the bispectrum components for snapshots in the dump
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file. The rerun script can use a <a class="reference internal" href="special_bonds.html"><em>special_bonds</em></a>
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command that includes all pairs in the neighbor list.</p>
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</div>
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<p>;line</p>
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<p><strong>Output info:</strong></p>
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<p>Compute <em>sna/atom</em> calculates a per-atom array, each column
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corresponding to a particular bispectrum component. The total number
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of columns and the identities of the bispectrum component contained in
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each column depend on the values of <em>twojmax</em> and <em>diagonal</em>, as
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described by the following piece of python code:</p>
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<div class="highlight-python"><div class="highlight"><pre>for j1 in range(0,twojmax+1):
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if(diagonal==2):
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print j1/2,j1/2,j1/2
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elif(diagonal==1):
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for j in range(0,min(twojmax,2*j1)+1,2):
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print j1/2,j1/2,j/2
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elif(diagonal==0):
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for j2 in range(0,j1+1):
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for j in range(j1-j2,min(twojmax,j1+j2)+1,2):
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print j1/2,j2/2,j/2
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elif(diagonal==3):
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for j2 in range(0,j1+1):
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for j in range(j1-j2,min(twojmax,j1+j2)+1,2):
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if (j>=j1): print j1/2,j2/2,j/2
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</pre></div>
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</div>
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<p>Compute <em>snad/atom</em> evaluates a per-atom array. The columns are
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arranged into <em>ntypes</em> blocks, listed in order of atom type <em>I</em>. Each
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block contains three sub-blocks corresponding to the <em>x</em>, <em>y</em>, and <em>z</em>
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components of the atom position. Each of these sub-blocks contains
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one column for each bispectrum component, the same as for compute
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<em>sna/atom</em></p>
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<p>Compute <em>snav/atom</em> evaluates a per-atom array. The columns are
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arranged into <em>ntypes</em> blocks, listed in order of atom type <em>I</em>. Each
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block contains six sub-blocks corresponding to the <em>xx</em>, <em>yy</em>, <em>zz</em>,
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<em>yz</em>, <em>xz</em>, and <em>xy</em> components of the virial tensor in Voigt
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notation. Each of these sub-blocks contains one column for each
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bispectrum component, the same as for compute <em>sna/atom</em></p>
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<p>These values can be accessed by any command that uses per-atom values
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from a compute as input. See <a class="reference internal" href="Section_howto.html#howto-15"><span>Section_howto 15</span></a> for an overview of LAMMPS output
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options.</p>
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</div>
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<div class="section" id="restrictions">
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<h2>Restrictions<a class="headerlink" href="#restrictions" title="Permalink to this headline">¶</a></h2>
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<p>These computes are part of the SNAP package. They are only enabled if
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LAMMPS was built with that package. See the <a class="reference internal" href="Section_start.html#start-3"><span>Making LAMMPS</span></a> section for more info.</p>
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</div>
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<div class="section" id="related-commands">
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<h2>Related commands<a class="headerlink" href="#related-commands" title="Permalink to this headline">¶</a></h2>
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<p><a class="reference internal" href="pair_snap.html"><em>pair_style snap</em></a></p>
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</div>
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<div class="section" id="default">
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<h2>Default<a class="headerlink" href="#default" title="Permalink to this headline">¶</a></h2>
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<p>The optional keyword defaults are <em>diagonal</em> = 0, <em>rmin0</em> = 0,
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<em>switchflag</em> = 1.</p>
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<hr class="docutils" />
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<p id="thompson2014"><strong>(Thompson)</strong> Thompson, Swiler, Trott, Foiles, Tucker, under review, preprint
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available at <a class="reference external" href="http://arxiv.org/abs/1409.3880">arXiv:1409.3880</a></p>
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<p id="bartok2010"><strong>(Bartok)</strong> Bartok, Payne, Risi, Csanyi, Phys Rev Lett, 104, 136403 (2010).</p>
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<p id="meremianin2006"><strong>(Meremianin)</strong> Meremianin, J. Phys. A, 39, 3099 (2006).</p>
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<p id="varshalovich1987"><strong>(Varshalovich)</strong> Varshalovich, Moskalev, Khersonskii, Quantum Theory
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of Angular Momentum, World Scientific, Singapore (1987).</p>
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