scipy.special.i0e — SciPy v1.15.2 Manual (original) (raw)
scipy.special.i0e(x, out=None) = <ufunc 'i0e'>#
Exponentially scaled modified Bessel function of order 0.
Defined as:
i0e(x) = exp(-abs(x)) * i0(x).
Parameters:
xarray_like
Argument (float)
outndarray, optional
Optional output array for the function values
Returns:
Iscalar or ndarray
Value of the exponentially scaled modified Bessel function of order 0 at x.
See also
Modified Bessel function of the first kind
Modified Bessel function of order 0
Notes
The range is partitioned into the two intervals [0, 8] and (8, infinity). Chebyshev polynomial expansions are employed in each interval. The polynomial expansions used are the same as those in i0, but they are not multiplied by the dominant exponential factor.
This function is a wrapper for the Cephes [1] routine i0e. i0eis useful for large arguments x: for these, i0 quickly overflows.
References
Examples
In the following example i0 returns infinity whereas i0e still returns a finite number.
from scipy.special import i0, i0e i0(1000.), i0e(1000.) (inf, 0.012617240455891257)
Calculate the function at several points by providing a NumPy array or list for x:
import numpy as np i0e(np.array([-2., 0., 3.])) array([0.30850832, 1. , 0.24300035])
Plot the function from -10 to 10.
import matplotlib.pyplot as plt fig, ax = plt.subplots() x = np.linspace(-10., 10., 1000) y = i0e(x) ax.plot(x, y) plt.show()
