We investigate the impact of electron reflection on space charge in thermionic energy converters. Using the particle-in-cell code Warp3D, we simulate electron reflection and discover that specular and diffuse reflection produce fundamentally distinct behavior. Our simulations suggest that the effects of reflection may have been misidentified in experiments as anomalously large gap sizes. As a result, electron reflection may significantly alter the analysis and optimization of real-world converters.
References
1.
J.-H.
Lee
, I.
Bargatin
, N. A.
Melosh
, and R. T.
Howe
, Appl. Phys. Lett.
100
, 173904
(2012
).2.
G. N.
Hatsopoulos
and E. P.
Gyftopoulos
, Thermionic Energy Conversion
(MIT Press
, 1973
).3.
D. B.
King
, K. R.
Zavadil
, and J. A.
Ruffner
, in 35th Intersociety Energy Conversion Engineering Conference and Exhibit, 2000 (IECEC)
(IEEE, 2000
), Vol. 1
, pp. 272
–282
.4.
P.
Shefsiek
, IEEE Trans. Plasma Sci.
38
, 2041
(2010
).5.
R. A.
Becker
, J. Spacecr. Rockets
4
, 847
(1967
).6.
G. C.
Szego
, J. Spacecr. Rockets
2
, 641
(1965
).7.
N. S.
Rasor
, in 33rd Intersociety Energy Conversion Engineering Conference
, 1998
.8.
C.
Balestra
, F.
Huffman
, and C.
Wang
, “Electron reflection from one-dimensional potential barriers
,” Report No. TE4237-38-79
(Thermo Electron Corp., Waltham, MA, 1978
).9.
F.
Huffman
, D.
Lieb
, T.
Briere
, A.
Sommer
, and F.
Rufeh
, in 11th Intersociety Energy Conversion Engineering Conference
(1976
), pp. 1645
–1651
.10.
K. A.
Littau
, K.
Sahasrabuddhe
, D.
Barfield
, H.
Yuan
, Z.-X.
Shen
, R. T.
Howe
, and N. A.
Melosh
, Phys. Chem. Chem. Phys.
15
, 14442
(2013
).11.
A. C.
Marshall
, AIP Conf. Proc.
504
, 1319
–1326
(2000
).12.
A. C.
Marshall
, Surf. Sci.
517
, 186
(2002
).13.
A. C.
Marshall
and D. B.
King
, AIP Conf. Proc.
552
, 1158
–1164
(2001
).14.
R. J.
Zollweg
, J. Appl. Phys.
34
, 2590
(1963
).15.
L. R.
Danielson
, J. Appl. Phys.
52
, 300
(1981
).16.
A. H.
Khoshaman
, A. T.
Koch
, M.
Chang
, H. D. E.
Fan
, M. V.
Moghaddam
, and A.
Nojeh
, IEEE Trans. Nanotechnol.
14
, 624
(2015
).17.
J.-L.
Vay
, D. P.
Grote
, R. H.
Cohen
, and A.
Friedman
, Comput. Sci. Discovery
5
, 014019
(2012
).18.
A.
Friedman
, R. H.
Cohen
, D. P.
Grote
, S. M.
Lund
, W. M.
Sharp
, J.-L.
Vay
, I.
Haber
, and R. A.
Kishek
, IEEE Trans. Plasma Sci.
42
, 1321
(2014
).19.
A.
Goetzberger
, in Proceedings of the 15th IEEE Photovoltaic Specialists Conference
(1981
), pp. 867
–870
.20.
E.
Yablonovitch
, J. Opt. Soc. Am.
72
, 899
(1982
).21.
G.
Hatsopoulos
and J.
Kaye
, Proc. IRE
46
, 1574
–1579
(1958
).22.
G.
Fitzpatrick
, J.
Lawless
, Y.
Nikolaev
, and A.
Klinkov
, in Proceedings 28th Intersociety Energy Conversion Engineering Conference
(1993
), Vol. 1
, pp. 573
–580
.23.
F. A.
Koeck
, R. J.
Nemanich
, A.
Lazea
, and K.
Haenen
, Diamond Relat. Mater.
18
, 789
(2009
).24.
M.
Islam
, O. T.
Inal
, and J. R.
Luke
, J. Appl. Phys.
100
, 084903
(2006
).25.
J. W.
Schwede
, I.
Bargatin
, D. C.
Riley
, B. E.
Hardin
, S. J.
Rosenthal
, Y.
Sun
, F.
Schmitt
, P.
Pianetta
, R. T.
Howe
, Z.-X.
Shen
et al., Nat. Mater.
9
, 762
(2010
).26.
G.
Segev
, D.
Weisman
, Y.
Rosenwaks
, and A.
Kribus
, Appl. Phys. Lett.
107
, 013908
(2015
).27.
S.
Meir
, C.
Stephanos
, T. H.
Geballe
, and J.
Mannhart
, J. Renewable Sustainable Energy
5
, 043127
(2013
).© 2018 Author(s).
2018
Author(s)
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