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Hypergeometric1F1Regularized
Hypergeometric1F1Regularized

is the regularized confluent hypergeometric function TemplateBox[{a, b, z}, Hypergeometric1F1]/TemplateBox[{b}, Gamma].

Details

Examples

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Basic Examples  (5)Summary of the most common use cases

Evaluate numerically:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-djcurp
Out[1]=1

Plot over a subset of the reals:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-fknucq
Out[1]=1

Plot over a subset of the complexes:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-kiedlx
Out[1]=1

Series expansion at the origin:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-b41hxu
Out[1]=1

Series expansion at Infinity:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-cugjvu
Out[1]=1

Scope  (40)Survey of the scope of standard use cases

Numerical Evaluation  (6)

Evaluate numerically:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-l274ju
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-cksbl4
Out[2]=2

Evaluate to high precision:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-b0wt9
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-efa4qz
Out[2]=2

The precision of the output tracks the precision of the input:

In[3]:=3
https://wolfram.com/xid/0j0g5o6xr5sfyq-y7k4a
Out[3]=3
In[4]:=4
https://wolfram.com/xid/0j0g5o6xr5sfyq-nh3li9
Out[4]=4
In[5]:=5
https://wolfram.com/xid/0j0g5o6xr5sfyq-ffb13g
Out[5]=5

Complex number inputs:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-hfml09
Out[1]=1

Evaluate efficiently at high precision:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-di5gcr
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-bq2c6r
Out[2]=2

Compute worst-case guaranteed intervals using Interval and CenteredInterval objects:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-cmdnbi
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-o9emjc
Out[2]=2

Or compute average-case statistical intervals using Around:

In[3]:=3
https://wolfram.com/xid/0j0g5o6xr5sfyq-cw18bq
Out[3]=3

Compute the elementwise values of an array:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-thgd2
Out[1]=1

Or compute the matrix Hypergeometric1F1Regularized function using MatrixFunction:

In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-o5jpo
Out[2]=2

Specific Values  (7)

Hypergeometric1F1Regularized for symbolic a:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-fc9m8o
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-j81ag0
Out[2]=2
In[3]:=3
https://wolfram.com/xid/0j0g5o6xr5sfyq-fop7y
Out[3]=3

Limiting values at infinity:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-jevg27
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-fmpyy1
Out[2]=2
In[3]:=3
https://wolfram.com/xid/0j0g5o6xr5sfyq-n7wac
Out[3]=3

Values at zero:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-bmqd0y
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-e41pf2
Out[2]=2

Find a value of x for which Hypergeometric1F1Regularized[1/2,1,x ]=0.4:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-f2hrld
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-foktj
Out[2]=2

Evaluate symbolically for integer parameters:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-klij8s
Out[1]=1

Evaluate symbolically for half-integer parameters:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-hfz8z6
Out[1]=1

Hypergeometric1F1Regularized automatically evaluates to simpler functions for certain parameters:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-pvdd5e
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-glcoyn
Out[2]=2

Visualization  (3)

Plot the Hypergeometric1F1Regularized function:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-ecj8m7
Out[1]=1

Plot Hypergeometric1F1Regularized as a function of its second parameter :

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-gq0e7
Out[1]=1

Plot the real part of TemplateBox[{{1, /, 2}, {sqrt(, 2, )}, z}, Hypergeometric1F1Regularized]:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-ovwz44
Out[1]=1

Plot the imaginary part of TemplateBox[{{1, /, 2}, {sqrt(, 2, )}, z}, Hypergeometric1F1Regularized]:

In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-zpq38
Out[2]=2

Function Properties  (10)

Hypergeometric1F1Regularized is defined for all real and complex values:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-cl7ele
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-fr5cee
Out[2]=2

Hypergeometric1F1Regularized threads elementwise over lists:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-fuhobq
Out[1]=1

TemplateBox[{a, b, z}, Hypergeometric1F1Regularized] is an analytic function:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-t4nm20
Out[1]=1

Hypergeometric1F1Regularized is neither non-decreasing nor non-increasing except for special values:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-0ee609
Out[1]=1

TemplateBox[{{sqrt(, 3, )}, {sqrt(, 2, )}, z}, Hypergeometric1F1Regularized] is not injective:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-mapats
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-zf7zy
Out[2]=2

TemplateBox[{1, 2, z}, Hypergeometric1F1Regularized] is not surjective:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-5jneb1
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-izdwb4
Out[2]=2

Hypergeometric1F1Regularized is non-negative for specific values:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-1vq7r
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-euyc6r
Out[2]=2

TemplateBox[{{sqrt(, 3, )}, {sqrt(, 2, )}, z}, Hypergeometric1F1Regularized] is neither non-negative nor non-positive:

In[3]:=3
https://wolfram.com/xid/0j0g5o6xr5sfyq-3qlicl
Out[3]=3

TemplateBox[{a, b, z}, Hypergeometric1F1Regularized] has no singularities or discontinuities:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-0utlh0
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-ro7k5q
Out[2]=2

TemplateBox[{{-, 2}, 1, z}, Hypergeometric1F1Regularized] is convex:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-ija8n6
Out[1]=1

TemplateBox[{2, 1, z}, Hypergeometric1F1Regularized] is neither convex nor concave:

In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-2g6v3k
Out[2]=2

TraditionalForm formatting:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-vow6c

Differentiation  (3)

First derivative with respect to b when a=1:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-krpoah
Out[1]=1

First derivative with respect to z when a=1:

In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-fogbzl
Out[2]=2

Higher derivatives with respect to b when a=1:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-z33jv
Out[1]=1

Higher derivatives with respect to z when a=1 and b=2:

In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-nfbe0l
Out[2]=2

Plot the higher derivatives with respect to z when a=1 and b=2:

In[3]:=3
https://wolfram.com/xid/0j0g5o6xr5sfyq-fxwmfc
Out[3]=3

Formula for the ^(th) derivative with respect to z when a=1:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-dnigky
Out[1]=1

Integration  (3)

Compute the indefinite integral using Integrate:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-bponid
Out[1]=1

Verify the anti-derivative:

In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-op9yly
Out[2]=2

Definite integral:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-b9jw7l
Out[1]=1

More integrals:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-4nbst
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-h9t4zs
Out[2]=2

Series Expansions  (6)

Find the Taylor expansion using Series:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-ewr1h8
Out[1]=1

Plots of the first three approximations around :

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-binhar
Out[2]=2

General term in the series expansion using SeriesCoefficient:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-dznx2j
Out[1]=1

FourierSeries:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-f64drv
Out[1]=1

Find the series expansion at Infinity:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-syq
Out[1]=1

Find series expansion for an arbitrary symbolic direction :

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-t5t
Out[1]=1

Taylor expansion at a generic point:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-jwxla7
Out[1]=1

Function Identities and Simplifications  (2)

Recurrence relation:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-dxk8yq
Out[1]=1

Use FunctionExpand to express Hypergeometric1F1Regularized through other functions:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-j653o2
Out[1]=1

Generalizations & Extensions  (1)Generalized and extended use cases

Series expansion at infinity:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-9rkxb
Out[1]=1

Properties & Relations  (3)Properties of the function, and connections to other functions

With a numeric second parameter, gives the ordinary hypergeometric function:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-kippzc
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-dkxjhw
Out[2]=2

Hypergeometric1F1Regularized can be represented as a DifferentialRoot:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-sbdxs
Out[1]=1

Hypergeometric1F1Regularized can be represented in terms of MeijerG:

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-eawmad
Out[1]=1
In[2]:=2
https://wolfram.com/xid/0j0g5o6xr5sfyq-e1m8s
Out[2]=2

Neat Examples  (1)Surprising or curious use cases

Visualize the confluence relation :

In[1]:=1
https://wolfram.com/xid/0j0g5o6xr5sfyq-d06bjt
Out[1]=1
Wolfram Research (1996), Hypergeometric1F1Regularized, Wolfram Language function, https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html (updated 2022).
Wolfram Research (1996), Hypergeometric1F1Regularized, Wolfram Language function, https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html (updated 2022).

Text

Wolfram Research (1996), Hypergeometric1F1Regularized, Wolfram Language function, https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html (updated 2022).

Wolfram Research (1996), Hypergeometric1F1Regularized, Wolfram Language function, https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html (updated 2022).

CMS

Wolfram Language. 1996. "Hypergeometric1F1Regularized." Wolfram Language & System Documentation Center. Wolfram Research. Last Modified 2022. https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html.

Wolfram Language. 1996. "Hypergeometric1F1Regularized." Wolfram Language & System Documentation Center. Wolfram Research. Last Modified 2022. https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html.

APA

Wolfram Language. (1996). Hypergeometric1F1Regularized. Wolfram Language & System Documentation Center. Retrieved from https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html

Wolfram Language. (1996). Hypergeometric1F1Regularized. Wolfram Language & System Documentation Center. Retrieved from https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html

BibTeX

@misc{reference.wolfram_2025_hypergeometric1f1regularized, author="Wolfram Research", title="{Hypergeometric1F1Regularized}", year="2022", howpublished="\url{https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html}", note=[Accessed: 09-April-2025 ]}

@misc{reference.wolfram_2025_hypergeometric1f1regularized, author="Wolfram Research", title="{Hypergeometric1F1Regularized}", year="2022", howpublished="\url{https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html}", note=[Accessed: 09-April-2025 ]}

BibLaTeX

@online{reference.wolfram_2025_hypergeometric1f1regularized, organization={Wolfram Research}, title={Hypergeometric1F1Regularized}, year={2022}, url={https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html}, note=[Accessed: 09-April-2025 ]}

@online{reference.wolfram_2025_hypergeometric1f1regularized, organization={Wolfram Research}, title={Hypergeometric1F1Regularized}, year={2022}, url={https://reference.wolfram.com/language/ref/Hypergeometric1F1Regularized.html}, note=[Accessed: 09-April-2025 ]}