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-{

- "metadata": {

-  "name": "",

-  "signature": "sha256:fa946e3f77a5fb13eb7ad900f4bb8618950afc67e42b0d85db2b38e779043158"

- },

- "nbformat": 3,

- "nbformat_minor": 0,

- "worksheets": [

-  {

-   "cells": [

-    {

-     "cell_type": "heading",

-     "level": 1,

-     "metadata": {},

-     "source": [

-      "Chapter14-Lasers\n"

-     ]

-    },

-    {

-     "cell_type": "heading",

-     "level": 2,

-     "metadata": {},

-     "source": [

-      "Ex1-pg418"

-     ]

-    },

-    {

-     "cell_type": "code",

-     "collapsed": false,

-     "input": [

-      "import math\n",

-      "##Example 14.1\n",

-      "##calculation of intensity of laser beam\n",

-      "\n",

-      "##given values\n",

-      "P=10*10**-3.;##Power in Watt\n",

-      "d=1.3*10**-3.;##diametre in m\n",

-      "A=math.pi*d**2./4.;##area in m**2\n",

-      "\n",

-      "\n",

-      "##calculation\n",

-      "I=P/A;\n",

-      "print'%s %.2f %s'%('intensity (in W/m^2) is',I,'');"

-     ],

-     "language": "python",

-     "metadata": {},

-     "outputs": [

-      {

-       "output_type": "stream",

-       "stream": "stdout",

-       "text": [

-        "intensity (in W/m^2) is 7533.96 \n"

-       ]

-      }

-     ],

-     "prompt_number": 1

-    },

-    {

-     "cell_type": "heading",

-     "level": 2,

-     "metadata": {},

-     "source": [

-      "Ex2-pg418"

-     ]

-    },

-    {

-     "cell_type": "code",

-     "collapsed": false,

-     "input": [

-      "import math\n",

-      "##Example 14.2\n",

-      "##calculation of intensity of laser beam\n",

-      "\n",

-      "##given values\n",

-      "P=1*10**-3.;##Power in Watt\n",

-      "l=6328*10**-10.;##wavelength in m\n",

-      "A=l**2.;##area in m**2\n",

-      "\n",

-      "\n",

-      "##calculation\n",

-      "I=P/A;\n",

-      "print'%s %.3e %s'%('intensity (in W/m^2) is',I,'');"

-     ],

-     "language": "python",

-     "metadata": {},

-     "outputs": [

-      {

-       "output_type": "stream",

-       "stream": "stdout",

-       "text": [

-        "intensity (in W/m^2) is 2.497e+09 \n"

-       ]

-      }

-     ],

-     "prompt_number": 2

-    },

-    {

-     "cell_type": "heading",

-     "level": 2,

-     "metadata": {},

-     "source": [

-      "Ex3-pg418"

-     ]

-    },

-    {

-     "cell_type": "code",

-     "collapsed": false,

-     "input": [

-      "import math\n",

-      "##Example 14.3\n",

-      "##calculation of coherence length,bandwidth and line width\n",

-      "\n",

-      "##given values\n",

-      "c=3*10**8.;##velocity of light in m/s\n",

-      "t=.1*10**-9.;##timedivision in s\n",

-      "l=6238*10**-10.;##wavelength in m\n",

-      "\n",

-      "##calculation\n",

-      "x=c*t;\n",

-      "print'%s %.2f %s'%('coherence length (in m) is',x,'');\n",

-      "d=1./t;\n",

-      "print'%s %.3e %s'%('bandwidth (in Hz) is',d,'');\n",

-      "y=l**2*d/c;##line width in m\n",

-      "print'%s %.2f %s'%('line width(in armstrong )is',y*10**10,'');"

-     ],

-     "language": "python",

-     "metadata": {},

-     "outputs": [

-      {

-       "output_type": "stream",

-       "stream": "stdout",

-       "text": [

-        "coherence length (in m) is 0.03 \n",

-        "bandwidth (in Hz) is 1.000e+10 \n",

-        "line width(in armstrong )is 0.13 \n"

-       ]

-      }

-     ],

-     "prompt_number": 3

-    },

-    {

-     "cell_type": "heading",

-     "level": 2,

-     "metadata": {},

-     "source": [

-      "Ex4-pg418"

-     ]

-    },

-    {

-     "cell_type": "code",

-     "collapsed": false,

-     "input": [

-      "import math\n",

-      "##Example 14.4\n",

-      "##calculation of frequency difference\n",

-      "\n",

-      "##given values\n",

-      "c=3*10**8;##velocity of light in m/s\n",

-      "l=.5;##distance in m\n",

-      "\n",

-      "##calculation\n",

-      "f=c/(2*l);##in hertz\n",

-      "print'%s %.2f %s'%('frequency difference (in MHz) is',f/10**6,'');\n"

-     ],

-     "language": "python",

-     "metadata": {},

-     "outputs": [

-      {

-       "output_type": "stream",

-       "stream": "stdout",

-       "text": [

-        "frequency difference (in MHz) is 300.00 \n"

-       ]

-      }

-     ],

-     "prompt_number": 2

-    },

-    {

-     "cell_type": "heading",

-     "level": 2,

-     "metadata": {},

-     "source": [

-      "Ex5-pg418"

-     ]

-    },

-    {

-     "cell_type": "code",

-     "collapsed": false,

-     "input": [

-      "import math\n",

-      "##Example 14.5\n",

-      "##calculation of no of cavity modes\n",

-      "\n",

-      "##given values\n",

-      "c=3*10**8.;##velocity of light in m/s\n",

-      "n=1.75;##refractive index\n",

-      "l=2*10**-2;##length of ruby rod in m\n",

-      "x=6943*10**-10.;##wavelength in m\n",

-      "y=5.3*10**-10.;##spread of wavelength in m\n",

-      "\n",

-      "##calculation\n",

-      "d=c/n/l;\n",

-      "f=c*y/x**2.;\n",

-      "m=f/d;\n",

-      "print'%s %.2f %s'%('no of modes is',m,'');\n"

-     ],

-     "language": "python",

-     "metadata": {},

-     "outputs": [

-      {

-       "output_type": "stream",

-       "stream": "stdout",

-       "text": [

-        "no of modes is 38.48 \n"

-       ]

-      }

-     ],

-     "prompt_number": 1

-    }

-   ],

-   "metadata": {}

-  }

- ]

-}
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