Investigation of the non-ohmic transport behaviors under high magnetic fields can provide a new way to explore novel field-induced phenomena. We present the current–voltage measurements under high magnetic fields based on the flat-top pulsed magnetic field system. Two different measurement strategies were compared, given that the excitation current swept continuously or increased by a series of pulses. For the short duration of the flat-top pulsed field, the continuous current method was adopted and well optimized to reduce the Joule heating and achieve the quasi-static measurements. Finally, the non-ohmic behaviors of a quasi-one-dimensional charge density wave Li0.9Mo6O17 were successfully studied under the magnetic field up to 30 T at 4.2 K, which was the first current–voltage measurements carried out in pulsed magnetic fields.

1.
D.
Shoenberg
,
Magnetic Oscillations in Metals
(
Cambridge University Press
,
Cambridge
,
1984
).
2.
L.
Schubnikow
and
W. J.
De Haas
,
Nature
126
,
500
(
1930
).
3.
K. V.
Klitzing
,
G.
Dorda
, and
M.
Pepper
,
Phys. Rev. Lett.
45
,
494
(
1980
).
4.
F.
Lévy
,
I.
Sheikin
,
B.
Grenier
, and
A. D.
Huxley
,
Science
309
,
1343
(
2005
).
5.
N.
Doiron-Leyraud
,
C.
Proust
,
D.
LeBoeuf
,
J.
Levallois
,
J.-B.
Bonnemaison
,
R.
Liang
,
D. A.
Bonn
,
W. N.
Hardy
, and
L.
Taillefer
,
Nature
447
,
565
(
2007
).
6.
H.
Wang
,
H.
Liu
,
Y.
Li
,
Y.
Liu
,
J.
Wang
,
J.
Liu
,
J.-Y.
Dai
,
Y.
Wang
,
L.
Li
,
J.
Yan
,
D.
Mandrus
,
X. C.
Xie
, and
J.
Wang
,
Sci. Adv.
4
,
eaau5096
(
2018
).
7.
Z.
Xiang
,
Y.
Kasahara
,
T.
Asaba
,
B.
Lawson
,
C.
Tinsman
,
L.
Chen
,
K.
Sugimoto
,
S.
Kawaguchi
,
Y.
Sato
,
G.
Li
,
S.
Yao
,
Y. L.
Chen
,
F.
Iga
,
J.
Singleton
,
Y.
Matsuda
, and
L.
Li
,
Science
362
,
65
(
2018
).
8.
S.
Ran
,
I.-L.
Liu
,
Y. S.
Eo
,
D. J.
Campbell
,
P. M.
Neves
,
W. T.
Fuhrman
,
S. R.
Saha
,
C.
Eckberg
,
H.
Kim
,
D.
Graf
,
F.
Balakirev
,
J.
Singleton
,
J.
Paglione
, and
N. P.
Butch
,
Nat. Phys.
15
,
1250
(
2019
).
9.
J. Z.
Sun
,
L.
Krusin-Elbaum
,
P. R.
Duncombe
,
A.
Gupta
, and
R. B.
Laibowitz
,
Appl. Phys. Lett.
70
,
1769
(
1997
).
10.
A.
Asamitsu
,
Y.
Tomioka
,
H.
Kuwahara
, and
Y.
Tokura
,
Nature
388
,
50
(
1997
).
11.
Y.
Iwasa
,
T.
Koda
,
S.
Koshihara
,
Y.
Tokura
,
N.
Iwasawa
, and
G.
Saito
,
Phys. Rev. B
39
,
10441(R)
(
1989
).
12.
G.
Grüner
,
Rev. Mod. Phys.
60
,
1129
(
1988
).
13.
Y.
Iye
and
G.
Dresselhaus
,
Phys. Rev. Lett.
54
,
1182
(
1985
).
14.
F.
Arnold
,
A.
Isidori
,
E.
Kampert
,
B.
Yager
,
M.
Eschrig
, and
J.
Saunders
,
Phys. Rev. Lett.
119
,
136601
(
2017
).
15.
Z.
Zhu
,
P.
Nie
,
B.
Fauqué
,
B.
Vignolle
,
C.
Proust
,
R. D.
McDonald
,
N.
Harrison
, and
K.
Behnia
,
Phys. Rev. X
9
,
011058
(
2019
).
16.
R.
Battesti
,
J.
Beard
,
S.
Böser
,
N.
Bruyant
,
D.
Budker
,
S. A.
Crooker
,
E. J.
Daw
,
V. V.
Flambaum
,
T.
Inada
,
I. G.
Irastorza
,
F.
Karbstein
,
D. L.
Kim
,
M. G.
Kozlov
,
Z.
Melhem
,
A.
Phipps
,
P.
Pugnat
,
G.
Rikken
,
C.
Rizzo
,
M.
Schott
,
Y. K.
Semertzidis
,
H. H. J.
ten Kate
, and
G.
Zavattini
,
Phys. Rep.
765-766
,
1
(
2018
).
17.
J.
Singleton
,
C. H.
Mielke
,
A.
Migliori
,
G. S.
Boebinger
, and
A. H.
Lacerda
,
Physica B
346-347
,
614
(
2004
).
18.
T.
Peng
,
F.
Jiang
,
Q. Q.
Sun
,
Q.
Xu
,
H. X.
Xiao
,
F.
Herlach
, and
L.
Li
,
IEEE Trans. Appl. Supercond.
24
,
4300604
(
2014
).
19.
J.
Beard
,
J.
Billette
,
N.
Ferreira
,
P.
Frings
,
J.-M.
Lagarrigue
,
F.
Lecouturier
, and
J.-P.
Nicolin
,
IEEE Trans. Appl. Supercond.
28
,
4300305
(
2018
).
20.
C.
Canali
,
G.
Majni
,
R.
Minder
, and
G.
Ottaviani
,
IEEE Trans. Electron Devices
22
,
1045
(
1975
).
21.
B.
Fisher
,
J.
Genossar
,
K. B.
Chashka
,
L.
Patlagan
, and
G. M.
Reisner
,
Appl. Phys. Lett.
88
,
152103
(
2006
).
22.
T.
Mori
,
Y.
Bando
,
T.
Kawamoto
,
I.
Terasaki
,
K.
Takimiya
, and
T.
Otsubo
,
Phys. Rev. Lett.
100
,
037001
(
2008
).
23.
H.
Li
,
J.
Wang
,
R.
Xiong
,
F.
Yi
,
W.
Tang
,
Z.
Yu
, and
J.
Shi
,
Mod. Phys. Lett. B
18
,
697
(
2004
).
24.
L. J.
Campbell
,
H. J.
Boenig
,
D. G.
Rickel
,
J. B.
Schillig
,
H. J.
Schneider-Muntau
, and
J. R.
Sims
,
Physica B
216
,
218
(
1996
).
25.
F.
Jiang
,
T.
Peng
,
H.
Xiao
,
J.
Zhao
,
Y.
Pan
,
F.
Herlach
, and
L.
Li
,
Rev. Sci. Instrum.
85
,
045106
(
2014
).
26.
Y.
Kohama
and
K.
Kindo
,
Rev. Sci. Instrum.
86
,
104701
(
2015
).
27.
S.
Zhang
,
Z.
Wang
,
T.
Ding
,
H.
Xiao
,
J.
Xie
, and
X.
Han
,
IEEE Trans. Power Electron.
35
,
2436
(
2020
).
28.
S.
Wang
,
T.
Peng
,
F.
Jiang
,
S.
Jiang
,
S.
Chen
,
L.
Deng
,
R.
Huang
, and
L.
Li
,
IEEE Trans. Appl. Supercond.
30
,
4900404
(
2020
).
29.
J. Z.
Ke
,
C.
Dong
,
H. P.
Zhu
,
W. X.
Liu
,
M. Y.
Shi
,
Y. Q.
Du
,
J. F.
Wang
, and
M.
Yang
,
Ceram. Int.
47
,
25229
(
2021
).
30.
R.
Xiong
,
D.
Li
,
J.
Wang
,
C.
Li
,
W.
Tang
, and
J.
Shi
,
Solid State Commun.
142
,
251
(
2007
).
31.
S.
Martin
,
R. M.
Fleming
, and
L. F.
Schneemeyer
,
Phys. Rev. B
38
,
5733
(
1988
).
You do not currently have access to this content.