I am trying to reproduce the Dirac Delta function:

Dirac Delta Function

my code:

x = -30:1:30;
y = zeros(1,numel(x)); %sets all values initially to zero
y(x==0)= inf; % the point corresponding to x=0 is set to inf
axis([-40 40 0 inf])

My code produces:

My figure

  • x=[-30,0,0,0,30] y=[0,0,80,0,0] plot(x,y) – Dan Feb 21 '18 at 10:19

You can do this with stem, specifying its 'Marker' as an up arrow...

% Open figure
% Blue stem plot at x=0, to y=75. Marker style is up arrow
stem(0, 75,'color','b','linewidth',2,'marker','^')
% Add infinity label at x=0, y = 82 = 75 + fontsize/2, where we plotted up to 75
% Set axes limits

You can see the output plot here, but see the edit below for an improved version.

Note, of course you should choose a y value which is large relative to any other data on the plot. In this example I chose 75 to roughly match your desired example plot. MATLAB can't plot a value at inf because, well, where does infinity sit on the y axis?

Edit: You can indicate the y-axis is broken with additional '≈' characters as suggested by Marco in the comments. Combining xlim and ylim into one axis call, and changing the y-axis ticks to help indicate the axis break, we get this result:

stem(0, 80,'color','b','linewidth',2,'marker','^')
text([-42,0,38], [80,87,80], {'≈','∞','≈'}, 'Fontsize', 14)
axis([-40, 40, 0, 100])


  • 1
    In addition to show the on the y-axis you could add something like text(-41.7, 75, '≈', 'Fontsize', 20) and text(41.7, 75, '≈', 'Fontsize', 20) and not show yticks above 70. – Marco Feb 21 '18 at 10:15
  • 1
    @Marco you can do this with one call to text like so: text([-42,38], [80,80], '≈', 'Fontsize', 20) and then a call to yticks like so: yticks(0:20:60) – Wolfie Feb 21 '18 at 10:31
  • 1
    Heh. Nice. Dirac would be proud. +1. – rayryeng - Reinstate Monica Feb 21 '18 at 16:11

To show infinity, you should not set y to infinity. To do this, you can set y to a large value proportional to the axis values. For example if axis would be like [min_x max_x min_y max_y], you can set y(x==0) = max_y*10.

In your case you will have:

x = -30:1:30; min_x = min(x) - 10; max_x = max(x) + 10;
y = zeros(1,numel(x)); 
% compute values of y here
% ...
min_y = min(y) - 10; max_y = max(y) + 10;
y(x==0)= 10 * max_y; 
axis([min_x max_x min_y max_y]);

Use the tick property in Matlab plot as described below


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