Commit 2c403f4e authored by Benjamin Regler's avatar Benjamin Regler

Removed unnecessary descriptor from tutorial

parent 6d0bc7cc
......@@ -25,7 +25,7 @@
" Matthias Scheffler<sup>1</sup>,\n",
" and Luca Ghiringhelli<sup> 1</sup> <br><br>\n",
"<sup>1</sup> Fritz Haber Institute of the Max Planck Society, Faradayweg 4-6, D-14195 Berlin, Germany <br>\n",
"<span class=\"nomad--last-updated\" data-version=\"v1.0.1\">[Last updated: January 17, 2020]</span>\n",
"<span class=\"nomad--last-updated\" data-version=\"v1.0.2\">[Last updated: January 20, 2020]</span>\n",
"</p>\n",
" \n",
"<div> \n",
......@@ -75,8 +75,8 @@
"execution_count": 1,
"metadata": {
"ExecuteTime": {
"end_time": "2020-01-17T09:14:38.542016Z",
"start_time": "2020-01-17T09:14:38.539754Z"
"end_time": "2020-01-20T09:39:22.700649Z",
"start_time": "2020-01-20T09:39:22.698564Z"
},
"init_cell": true
},
......@@ -100,8 +100,8 @@
"execution_count": 2,
"metadata": {
"ExecuteTime": {
"end_time": "2020-01-17T09:14:39.810527Z",
"start_time": "2020-01-17T09:14:38.543402Z"
"end_time": "2020-01-20T09:39:24.010953Z",
"start_time": "2020-01-20T09:39:22.704342Z"
},
"hidden": true,
"init_cell": true
......@@ -2442,7 +2442,7 @@
"\n",
"$$\n",
"\\begin{equation}\n",
" D1 = \\frac{\\text{IP}(B) - \\text{EA}(B)}{r_p(A)^2}\\ ,\\quad \\ D2 = \\frac{|r_s(A) - r_p(B)|}{\\exp[r_s(A)]}\\ ,\\quad D3 = \\frac{|r_s(B) - r_p(B)|}{\\exp[r_d(A)]} \\ .\n",
" D1 = \\frac{\\text{IP}(B) - \\text{EA}(B)}{r_p(A)^2}\\ ,\\quad \\ D2 = \\frac{|r_s(A) - r_p(B)|}{\\exp[r_s(A)]} \\ .\n",
"\\end{equation}\n",
"$$"
]
......@@ -2462,11 +2462,11 @@
},
{
"cell_type": "code",
"execution_count": 21,
"execution_count": 3,
"metadata": {
"ExecuteTime": {
"end_time": "2020-01-17T09:14:14.881245Z",
"start_time": "2020-01-17T09:14:14.835250Z"
"end_time": "2020-01-17T09:32:40.231624Z",
"start_time": "2020-01-17T09:32:40.167835Z"
},
"scrolled": true
},
......@@ -2560,8 +2560,7 @@
"# Add extra features from PRL\n",
"extra = {\n",
" 'D1': (data['EA(B)'] - data['IP(B)']) / data['rp(A)']**2,\n",
" 'D2': np.abs(data['rs(A)'] - data['rp(B)']) / np.exp(data['rs(A)']),\n",
" 'D3': np.abs(data['rp(B)'] - data['rs(B)']) / np.exp(data['rd(A)'])\n",
" 'D2': np.abs(data['rs(A)'] - data['rp(B)']) / np.exp(data['rs(A)'])\n",
"}\n",
"# for k, v in extra.items():\n",
"# data[k] = v\n",
......
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