Quantum nonlocality is associated with the local indistinguishability of orthogonal states. Unextendible product basis (UPB), a widely used tool in quantum information, exhibits nonlocality, which is the powerful resource for quantum information processing. In this work, we extend the definitions of nonlocality and genuine nonlocality from states to operators. We also extend UPB to the notions of unextendible product operator basis, unextendible product unitary operator basis (UPUOB), and strongly UPUOB. We construct their examples and show the nonlocality of some strongly UPUOBs under local operations and classical communications. We study the phenomenon of these operators acting on quantum states. As an application, we distinguish the two-dimensional strongly UPUOB, which only consumes three ebits of entanglement. Our results imply that such UPUOBs exhibit nonlocality as UPBs, and the distinguishability of them requires entanglement resources.

1.
F.
Shi
,
M.
Hu
,
L.
Chen
, and
X.
Zhang
,
Phys. Rev. A
102
,
042202
(
2020
).
2.
S.
Halder
,
M.
Banik
,
S.
Agrawal
, and
S.
Bandyopadhyay
,
Phys. Rev. Lett.
122
,
040403
(
2019
).
3.
C. H.
Bennett
,
D. P.
DiVincenzo
,
C. A.
Fuchs
,
T.
Mor
,
E.
Rains
,
P. W.
Shor
,
J. A.
Smolin
, and
W. K.
Wootters
,
Phys. Rev. A
59
,
1070
(
1999
).
4.
D.-L.
Deng
,
Phys. Rev. Lett.
120
,
240402
(
2018
).
5.
Y.-C.
Liang
,
F. J.
Curchod
,
J.
Bowles
, and
N.
Gisin
,
Phys. Rev. Lett.
113
,
130401
(
2014
).
6.
S. M.
Cohen
,
Phys. Rev. A
77
,
012304
(
2008
).
7.
D. P.
DiVincenzo
,
T.
Mor
,
P. W.
Shor
,
J. A.
Smolin
, and
B. M.
Terhal
,
Commun. Math. Phys.
238
,
379
(
2003
).
8.
S.
De Rinaldis
,
Phys. Rev. A
70
,
022309
(
2004
).
9.
B. P.
Lanyon
,
M.
Barbieri
,
M. P.
Almeida
,
T.
Jennewein
,
T. C.
Ralph
,
K. J.
Resch
,
G. J.
Pryde
,
J. L.
O’Brien
,
A.
Gilchrist
, and
A. G.
White
,
Nat. Phys.
5
,
134
(
2009
).
10.
L. M.
Procopio
,
A.
Moqanaki
,
M.
Araújo
,
F.
Costa
,
I. A.
Calafell
,
E. G.
Dowd
,
D. R.
Hamel
,
L. A.
Rozema
,
Č.
Brukner
, and
P.
Walther
,
Nat. Commun.
6
,
7913
(
2015
).
11.
S.
Bagchi
and
A. K.
Pati
,
Phys. Rev. A
94
,
042104
(
2016
).
12.
L.
Chen
and
L.
Yu
,
Phys. Rev. A
89
,
062326
(
2014
).
13.
J.
Eisert
,
K.
Jacobs
,
P.
Papadopoulos
, and
M. B.
Plenio
,
Phys. Rev. A
62
,
052317
(
2000
).
14.
D.
Cavalcanti
,
M. L.
Almeida
,
V.
Scarani
, and
A.
Acín
,
Nat. Commun.
2
,
184
(
2011
).
15.
N.
Brunner
,
D.
Cavalcanti
,
S.
Pironio
,
V.
Scarani
, and
S.
Wehner
,
Rev. Mod. Phys.
86
,
419
(
2014
).
16.
M.-O.
Renou
,
E.
Bäumer
,
S.
Boreiri
,
N.
Brunner
,
N.
Gisin
, and
S.
Beigi
,
Phys. Rev. Lett.
123
,
140401
(
2019
).
17.
M.
Banik
,
T.
Guha
,
M.
Alimuddin
,
G.
Kar
,
S.
Halder
, and
S. S.
Bhattacharya
,
Phys. Rev. Lett.
126
,
210505
(
2021
).
18.
M.
Reck
,
A.
Zeilinger
,
H. J.
Bernstein
, and
P.
Bertani
,
Phys. Rev. Lett.
73
,
58
(
1994
).
19.
N.
Usher
,
M. J.
Hoban
, and
D. E.
Browne
,
Phys. Rev. A
96
,
032321
(
2017
).
20.
L.
Zhou
and
M.
Ying
, in
2017 IEEE 30th Computer Security Foundations Symposium (CSF)
(
IEEE
,
2017
), pp.
249
262
.
21.
C.
Song
,
J.
Cui
,
H.
Wang
,
J.
Hao
,
H.
Feng
, and
Y.
Li
,
Sci. Adv.
5
,
eaaw5686
(
2019
).
22.
M.
Hu
and
L.
Chen
,
Quantum Inf. Process.
21
,
162
(
2022
).
23.
G.
Tian
,
S.
Yu
,
F.
Gao
,
Q.
Wen
, and
C. H.
Oh
,
Phys. Rev. A
91
,
052314
(
2015
).
24.
N.
Yu
,
R.
Duan
, and
M.
Ying
,
Phys. Rev. Lett.
109
,
020506
(
2012
).
25.
26.
W.
Matthews
,
S.
Wehner
, and
A.
Winter
,
Commun. Math. Phys.
291
,
813
(
2009
).
27.
D. P.
DiVincenzo
,
D. W.
Leung
, and
B. M.
Terhal
,
IEEE Trans. Inf. Theory
48
,
580
(
2002
).
28.
D.
Markham
and
B. C.
Sanders
,
Phys. Rev. A
78
,
042309
(
2008
).
29.
C. H.
Bennett
,
D. P.
DiVincenzo
,
T.
Mor
,
P. W.
Shor
,
J. A.
Smolin
, and
B. M.
Terhal
,
Phys. Rev. Lett.
82
,
5385
(
1999
).
30.
F.
Shi
,
X.
Zhang
, and
L.
Chen
,
Phys. Rev. A
101
,
062329
(
2020
).
31.
S.
Bravyi
and
J. A.
Smolin
,
Phys. Rev. A
84
,
042306
(
2011
).
32.
Y.-L.
Wang
,
M.-S.
Li
, and
S.-M.
Fei
,
Phys. Rev. A
90
,
034301
(
2014
).
34.
M.-S.
Li
,
Y.-L.
Wang
, and
Z.-J.
Zheng
,
Phys. Rev. A
89
,
062313
(
2014
).
35.
L.
Chen
and
D. Ž.
Đoković
,
J. Phys. A: Math. Theor.
46
,
275304
(
2013
).
36.
M.
Hayashi
,
D.
Markham
,
M.
Murao
,
M.
Owari
, and
S.
Virmani
,
Phys. Rev. Lett.
96
,
040501
(
2006
).
37.
C. H.
Bennett
,
G.
Brassard
,
C.
Crépeau
,
R.
Jozsa
,
A.
Peres
, and
W. K.
Wootters
,
Phys. Rev. Lett.
70
,
1895
(
1993
).
38.
J.
Walgate
,
A. J.
Short
,
L.
Hardy
, and
V.
Vedral
,
Phys. Rev. Lett.
85
,
4972
(
2000
).
39.
A.
Shamir
,
Commun. ACM
22
,
612
613
(
1979
).
You do not currently have access to this content.