Positron-acoustic (PA) solitary waves (SWs) and double layers (DLs) in four-component plasmas consisting of immobile positive ions, mobile cold positrons, and superthermal (kappa distributed) hot positrons and electrons are investigated both numerically and analytically by deriving Korteweg–de Vries (K-dV), modified K-dV (mK-dV), and Gardner equations along with their DLs solutions using the reductive perturbation method. It is examined that depending on the plasma parameters, the K-dV SWs, Gardner SWs, and DLs support either compressive or rarefactive structures, whereas mK-dV SWs support only compressive structure. It is also found that the presence of superthermal (kappa distributed) hot positrons and hot electrons significantly modify the basic features of PA SWs as well as PA DLs. Besides, the critical number density ratio of hot positrons and cold positrons play an important role in the polarity of PA SWs and DLs. The implications of our results in different space as well as laboratory plasma environments are briefly discussed.

1.
S. I.
Popel
,
S. V.
Vladimirov
, and
P. K.
Shukla
,
Phys. Plasmas
2
,
716
(
1995
).
2.
H.
Hasegawa
,
S.
Irie
,
S.
Usami
, and
Y.
Ohsawa
,
Phys. Plasmas
9
,
2549
(
2002
).
3.
M.
Salahuddin
,
H.
Saleem
, and
M.
Saddiq
,
Phys. Rev. E
66
,
036407
(
2002
).
4.
W. M.
Moslem
,
I.
Kaurakis
,
P. K.
Shukla
, and
R.
Schlickeiser
,
Phys. Plasmas
14
,
102901
(
2007
).
5.
S.
Ghosh
and
R.
Bharuthram
,
Astrophys. Space Sci.
314
,
121
(
2008
).
6.
S.
Ghosh
and
R.
Bharuthram
,
Astrophys. Space Sci.
331
,
163
(
2011
).
7.
A.
Shah
,
S.
Mahmood
, and
Q.
Haque
,
Phys. Plasmas
18
,
114501
(
2011
).
8.
T. K.
Baluku
and
M. A.
Hellberg
,
Plasma Phys. Controlled Fusion
53
,
095007
(
2011
).
9.
H.
Alinejad
,
Astrophys. Space Sci.
345
,
85
(
2013
).
10.
S.
Hussain
,
N.
Akhtar
, and
S.
Mahmood
,
Astrophys. Space Sci.
348
,
475
(
2013
).
11.
Y. N.
Nejoh
,
Phys. Plasmas
3
,
1447
(
1996
).
12.
V. M.
Vasyliunas
,
J. Geophys. Res.
73
,
2839
, doi: (
1968
).
13.
T. K.
Baluku
and
M. A.
Hellberg
,
Phys. Plasmas
15
,
123705
(
2008
).
14.
T. K.
Baluku
,
M. A.
Hellberg
,
I.
Kourakis
, and
N. S.
Saini
,
Phys. Plasmas
17
,
053702
(
2010
).
15.
M. S.
Alam
,
M. M.
Masud
, and
A. A.
Mamun
,
Chin. Phys. B
22
,
115202
(
2013
).
16.
M. S.
Alam
,
M. M.
Masud
, and
A. A.
Mamun
,
Plasma Phys. Rep.
39
,
1011
(
2013
).
17.
M. S.
Alam
,
Dust-Ion-Acoustic Waves in Dusty Plasmas with Superthermal Electrons
(
LAP LAMBERT Academic Publishing
,
Germany
,
2013
).
18.
B.
Basu
,
Phys. Plasmas
15
,
042108
(
2008
).
19.
S. A.
El-Tantawy
,
N. A.
El-Bedwehy
, and
W. M.
Moslem
,
Phys. Plasmas
18
,
052113
(
2011
).
20.
D.
Summers
and
R. M.
Thorne
,
Phys. Fluids B
3
,
1835
(
1991
).
21.
S. M.
Krimigis
,
J. F.
Carbary
,
E. P.
Keath
,
T. P.
Armstrong
,
L. J.
Lanzerotti
, and
G.
Gloeckler
,
J. Geophys. Res.
88
,
8871
, doi: (
1983
).
22.
S. P.
Christon
,
D. G.
Mitchell
,
D. J.
Williams
,
L. A.
Frank
,
C. Y.
Huang
, and
T. E.
Eastman
,
J. Geophys. Res.
93
,
2562
, doi: (
1988
).
23.
V.
Pierrard
and
J.
Lemaire
,
J. Geophys. Res.
101
,
7923
, doi: (
1996
).
24.
J. D.
Scudder
,
Astrophys. J.
398
,
299
(
1992
).
25.
A.
Olsson
and
P.
Janhunen
,
Ann. Geophys.
16
,
1567
(
1998
).
26.
N.
Boubakour
,
M.
Tribeche
, and
K.
Aoutou
,
Phys. Scr.
79
,
065503
(
2009
).
27.
Y. N.
Nejoh
,
Aust. J. Phys.
49
,
967
(
1996
).
28.
M.
Tribeche
,
K.
Aoutou
,
S.
Younsi
, and
R.
Amour
,
Phys. Plasmas
16
,
072103
(
2009
).
29.
M.
Tribeche
,
Phys. Plasmas
17
,
042110
(
2010
).
31.
E. F.
El-Shamy
,
W. F.
El-Taibany
,
E. K.
El-Shewy
, and
K. H.
El-Shorbagy
,
Astrophys. Space Sci.
338
,
279
(
2012
).
32.
F.
Sayed
and
A. A.
Mamun
,
Phys. Plasmas
14
,
014501
(
2007
).
33.
A.
Mannan
and
A. A.
Mamun
,
Phys. Rev. E
84
,
026408
(
2011
).
34.
M.
Emamuddin
,
S.
Sabina
, and
A. A.
Mamun
,
Phys. Plasmas
20
,
043705
(
2013
).
35.
N. C.
Lee
,
Phys. Plasmas
16
,
042316
(
2009
).
36.
A. A.
Mamun
and
A.
Mannan
,
JETP Lett.
94
,
356
(
2011
).
37.
F.
Deeba
,
S.
Tasnim
, and
A. A.
Mamun
,
IEEE Trans. Plasma Sci.
40
,
2247
(
2012
).
38.
S. T.
Shuchy
,
A.
Mannan
, and
A. A.
Mamun
,
JETP Lett.
95
,
282
(
2012
).
39.
D. K.
Ghosh
,
U. N.
Ghosh
,
P.
Chatterjee
, and
C. S.
Wong
,
Pramana
80
,
665
(
2013
).
40.
M. S.
Alam
,
M. M.
Masud
, and
A. A.
Mamun
,
Astrophys. Space Sci.
349
,
245
(
2014
).
41.
I.
Tasnim
,
M. M.
Masud
, and
A. A.
Mamun
,
Chaos
23
,
013147
(
2013
).
42.
J.
Bremer
,
P.
Hoffmann
,
A. H.
Manson
,
C. E.
Meek
,
R.
Ruster
, and
W.
Singer
,
Ann. Geophys.
14
,
1317
(
1996
).
43.
R. E.
Ergun
,
C. W.
Carlson
,
J. P.
McFadden
 et al 
Geophys. Res. Lett.
25
,
2041
, doi: (
1998
).
44.
J.
Franz
,
P.
Kintner
, and
J.
Pickett
,
Geophys. Res. Lett.
25
,
1277
, doi: (
1998
).
45.
P. K.
Shukla
,
N. N.
Rao
,
M. Y.
Yu
, and
N. L.
Tsintsadze
,
Phys. Rep.
138
,
1
(
1986
).
46.
V.
Berezhiani
,
D. D.
Tskhakaya
, and
P. K.
Shukla
,
Phys. Rev. A
46
,
6608
(
1992
).
47.
C. M.
Surko
,
M.
Leventhal
, and
A.
Passner
,
Phys. Rev. Lett.
62
,
901
(
1989
).
48.
K.
Abdullah
,
L.
Haarsma
, and
G.
Gabrielse
,
Phys. Scr.
T59
,
337
(
1995
).
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