We present neutral hydrogen observations of the plane of the Milky Way galaxy between 0° < l < 80° galactic longitude on the 20-meter telescope at the Green Bank Observatory. These radio spectroscopic signatures returned the 21-cm line of neutral hydrogen at various offsets due to the Doppler shift. By calculating orbital speeds relative to the galactic center, velocity was plotted against radial distance to map the rotation curve of the Milky Way galaxy. The distribution of luminous matter suggests that orbital velocity should fall off at large distances, but empirical observations show otherwise. An abundance of mass which cannot be detected is responsible for this phenomenon, known as dark matter. Although its nature is not understood, dark matter is easily observed indirectly by galactic rotation curves. Our observations confirm that the velocity of the Milky Way’s disk is fairly constant even at large distances from the center of our galaxy, Sagittarius A*.

Topics
Doppler effect, Dark matter, Galactic processes, Milky Way Galaxy, Milky Way motion and processes, Milky Way structure and properties, Telescopes, Hydrogen spectra
1.
S.
van den Bergh
,
Astronom. Soc. Pacific
111
,
657
660
(
1999
).
2.
L.
Baudis
,
J. Phys. G Nucl. Part. Phys
.
43
(
2016
).
3.
V. C.
Rubin
,
D.
Burstein
,
J. W.
Kent Ford
, and
N.
Thonnard
,
Astrophys. J.
289
,
81
104
(
1985
).
Crossref
Search ADS
 
4.
A.
Bosma
,
Astrophys. J.
86
,
1825
1846
(
1981
).
5.
G.
Bertone1
 and
D.
Hooper
,
Rev. Mod. Phys.
90
(
2016
).
6.
B. W.
Carroll
 and
D. A.
Ostlie
,
An Introduction to Modern Astrophysics
(
Cambridge University Press
,
2017
).
Google Scholar
Crossref
Search ADS
 
7.
L.
Bergstrom
,
New J. Phys
11
,
105006
(
2009
).
Crossref
Search ADS
 
8.
S.
Profumo
,
An Introduction to Particle Dark Matter
(
World Scientific
,
2017
).
Google Scholar
Crossref
Search ADS
 
9.
R.
Giovanelli
 and
M. P.
Haynes
,
Astrophys. J.
571
,
L107
L111
(
2002
).
Crossref
Search ADS
 
10.
M. J.
Reid
,
K. M.
Menten
,
A.
Brunthaler
,
X. W.
Zheng
,
T. M.
Dame
,
Y.
Xu
,
Y.
Wu
,
B.
Zhang
,
A.
Sanna
,
M.
Sato
,
K.
Hachisuka
,
Y. K.
Choi
, Immer,
L.
Moscadelli
,
K. L. J.
Rygl
, and
A.
Bartkiewicz
,
Astrophys. J.
783
,
14
(
2014
).
Crossref
Search ADS
 
11.
M.
Honma
,
T.
Nagayama
,
K.
Ando
,
T.
Bushimata
,
Y. K.
Choi
,
T.
Handa
,
T.
Hirota
,
H.
Imai
,
T.
Jike
,
M. K.
Kim
,
O.
Kameya
,
N.
Kawaguchi
,
H.
Kobayashi
,
T.
Kurayama
,
S.
Kuji
,
N.
Matsumoto
,
S.
Manabe
,
T.
Miyaji
,
K.
Motogi
,
A.
Nakagawa
, et al,
Publ. Astron. Soc. Jpn.
64
(
2012
).
12.
M.
Persic
,
P.
Salucc
, and
F.
Stel
,
R. Astron. Soc.
281
,
27
47
(
1996
).
Crossref
Search ADS
 
13.
G.
Van Rossum
 and
F. L.
Drake
,
Python 3 Reference Manual
(
CreateSpace, Scotts Valley
,
CA
,
2009
).
14.
Mathematica Version 13.0.0,
Wolfram Research, Inc.
,
Champaign, IL
,
2021
.
15.
T.
:
Kluyver
,
B.
Ragan–Kelley
,
F.
Perez
,
B.
Granger
,
M.
Bussonnier
,
J.
Frederic
,
K.
Kelley
,
J.
Hamrick
,
J.
Grout
,
S.
Corlay
,
P.
Ivanov
,
D. Avila
,
Abdalla
, and
C.
Willing
, Jupyter notebooks – A publishing format for reproducible computational workflows, in
Positioning and Power in Academic Publishing: Players, Agents and Agendas
, edited by
F.
Loizides
 and
B.
Schmidt
 (
IOS Press
,
2016
), pp.
87
90
.
Google Scholar
 
16.
C.
Moorman
,
Spin flip transition of hydrogen in astrophysics
,
Drexel University
(
2010
).
Google Scholar
 
17.
Y.
Sofue
,
Publ. Astron. Soc. Jpn.
69
(
2017
).
18.
The value of the local standard of rest is not still considered to be exactly 220 kms−1. The International Astronomical Union recommended that value decades ago, but the LSR is currently understood to be 236 ± 7 km s−1 [20]. Using a value of 220 km s−1 allows us to compare our data directly to other surveys. Updating this value would shift our results uniformly.
19.
D.
Russeil
,
A.
Zavagno
,
J. P.
Mege
,
Y.
Poulin
,
S.
Molinari
, and
L.
Cambresy
,
Astron. Astrophys.
601
(
2017
).
20.
M. J.
Reid
,
K. M.
Menten
,
A.
Brunthaler
,
X. W.
Zheng
,
T. M.
Dame
,
Y.
Xu
,
Y.
Wu
,
J.
Li
,
N.
Sakai
,
Y.
Wu
,
K.
Immer
,
B.
Zhang
,
A.
Sanna
, Moscadelli,
K. L. J.
Rygl
,
A.
Bartkiewicz
,
B.
Hu
,
L. H.
Quiroga-Nunez
, and
H. J.
van Langevelde
,
Astrophys. J.
885
,
18
(
2019
).
21.
J. E.
Gunn
,
G. R.
Knapp
, and
S. D.
Tremaine
,
Astrophys. J.
84
,
8
(
1979
).
22.
L.
Baudis
,
Phys. Rev.
94
,
262
(
1954
).
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