Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light

Hao Qin; Rupesh Kumar; Romain Alleaume

doi:10.1117/12.2195433

Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light

Hao Qin
, Rupesh Kumar
, Romain Alleaume

Centre national de la recherche scientifique

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

We report here a new side channel attack on a practical continuous-variable (CV) quantum key distribution (QKD) system. Inspired by blinding attack in discrete-variable QKD, we formalize an attack strategy by inserting an external light into a CV QKD system implemented Gaussian-modulated coherent state protocol and show that our attack can compromise its practical security. In this attack, we concern imperfections of a balanced homodyne detector used in CV QKD. According to our analysis, if one inserts an external light into Bob's signal port, due to the imperfect subtraction from the homodyne detector, the leakage of the external light contributes a displacement on the homodyne signal which causes detector electronics saturation. In consequence, Bob's quadrature measurement is not linear with the quadrature sent by Alice. By considering such vulnerability, a potential Eve can launch a full intercept-resend attack meanwhile she inserts an external light into Bob's signal port. By selecting proper properties of the external light, Eve actively controls the induced displacement value from the inserted light which results saturation of homodyne detection. In consequence, Eve can bias the excess noise due to the intercept-resend attack and the external light, such that Alice and Bob believe their excess noise estimation is below the null key threshold and they can still share a secret key. Our attack shows that the detector loopholes also exist in CV QKD, and it seems influence all the CV QKD systems using homodyne detection, since all the practical detectors have finite detection range.

Original language	English
Title of host publication	Electro-Optical and Infrared Systems
Subtitle of host publication	Technology and Applications XII; and Quantum Information Science and Technology
Editors	John G. Rarity, David A. Huckridge, Reinhard Ebert, Mark T. Gruneisen, Miloslav Dusek
Publisher	SPIE
ISBN (Electronic)	9781628418583
DOIs	https://doi.org/10.1117/12.2195433
Publication status	Published - 1 Jan 2015
Event	Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology - Toulouse, France Duration: 22 Sept 2015 → 23 Sept 2015

Publication series

Name	Proceedings of SPIE - The International Society for Optical Engineering
Volume	9648
ISSN (Print)	0277-786X
ISSN (Electronic)	1996-756X

Conference

Conference	Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology
Country/Territory	France
City	Toulouse
Period	22/09/15 → 23/09/15

Keywords

Continuous-variable
Homodyne detection
Practical secruity
Quantum hacking
Quantum key distribution
Side channel attack

Access to Document

10.1117/12.2195433

Cite this

Qin, H., Kumar, R., & Alleaume, R. (2015). Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light. In J. G. Rarity, D. A. Huckridge, R. Ebert, M. T. Gruneisen, & M. Dusek (Eds.), Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology Article 96480V (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 9648). SPIE. https://doi.org/10.1117/12.2195433

Qin, Hao ; Kumar, Rupesh ; Alleaume, Romain. / Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light. Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology. editor / John G. Rarity ; David A. Huckridge ; Reinhard Ebert ; Mark T. Gruneisen ; Miloslav Dusek. SPIE, 2015. (Proceedings of SPIE - The International Society for Optical Engineering).

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abstract = "We report here a new side channel attack on a practical continuous-variable (CV) quantum key distribution (QKD) system. Inspired by blinding attack in discrete-variable QKD, we formalize an attack strategy by inserting an external light into a CV QKD system implemented Gaussian-modulated coherent state protocol and show that our attack can compromise its practical security. In this attack, we concern imperfections of a balanced homodyne detector used in CV QKD. According to our analysis, if one inserts an external light into Bob's signal port, due to the imperfect subtraction from the homodyne detector, the leakage of the external light contributes a displacement on the homodyne signal which causes detector electronics saturation. In consequence, Bob's quadrature measurement is not linear with the quadrature sent by Alice. By considering such vulnerability, a potential Eve can launch a full intercept-resend attack meanwhile she inserts an external light into Bob's signal port. By selecting proper properties of the external light, Eve actively controls the induced displacement value from the inserted light which results saturation of homodyne detection. In consequence, Eve can bias the excess noise due to the intercept-resend attack and the external light, such that Alice and Bob believe their excess noise estimation is below the null key threshold and they can still share a secret key. Our attack shows that the detector loopholes also exist in CV QKD, and it seems influence all the CV QKD systems using homodyne detection, since all the practical detectors have finite detection range.",

keywords = "Continuous-variable, Homodyne detection, Practical secruity, Quantum hacking, Quantum key distribution, Side channel attack",

author = "Hao Qin and Rupesh Kumar and Romain Alleaume",

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Qin, H, Kumar, R & Alleaume, R 2015, Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light. in JG Rarity, DA Huckridge, R Ebert, MT Gruneisen & M Dusek (eds), Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology., 96480V, Proceedings of SPIE - The International Society for Optical Engineering, vol. 9648, SPIE, Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology, Toulouse, France, 22/09/15. https://doi.org/10.1117/12.2195433

Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light. / Qin, Hao; Kumar, Rupesh; Alleaume, Romain.
Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology. ed. / John G. Rarity; David A. Huckridge; Reinhard Ebert; Mark T. Gruneisen; Miloslav Dusek. SPIE, 2015. 96480V (Proceedings of SPIE - The International Society for Optical Engineering; Vol. 9648).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

TY - GEN

T1 - Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light

AU - Qin, Hao

AU - Kumar, Rupesh

AU - Alleaume, Romain

PY - 2015/1/1

Y1 - 2015/1/1

N2 - We report here a new side channel attack on a practical continuous-variable (CV) quantum key distribution (QKD) system. Inspired by blinding attack in discrete-variable QKD, we formalize an attack strategy by inserting an external light into a CV QKD system implemented Gaussian-modulated coherent state protocol and show that our attack can compromise its practical security. In this attack, we concern imperfections of a balanced homodyne detector used in CV QKD. According to our analysis, if one inserts an external light into Bob's signal port, due to the imperfect subtraction from the homodyne detector, the leakage of the external light contributes a displacement on the homodyne signal which causes detector electronics saturation. In consequence, Bob's quadrature measurement is not linear with the quadrature sent by Alice. By considering such vulnerability, a potential Eve can launch a full intercept-resend attack meanwhile she inserts an external light into Bob's signal port. By selecting proper properties of the external light, Eve actively controls the induced displacement value from the inserted light which results saturation of homodyne detection. In consequence, Eve can bias the excess noise due to the intercept-resend attack and the external light, such that Alice and Bob believe their excess noise estimation is below the null key threshold and they can still share a secret key. Our attack shows that the detector loopholes also exist in CV QKD, and it seems influence all the CV QKD systems using homodyne detection, since all the practical detectors have finite detection range.

AB - We report here a new side channel attack on a practical continuous-variable (CV) quantum key distribution (QKD) system. Inspired by blinding attack in discrete-variable QKD, we formalize an attack strategy by inserting an external light into a CV QKD system implemented Gaussian-modulated coherent state protocol and show that our attack can compromise its practical security. In this attack, we concern imperfections of a balanced homodyne detector used in CV QKD. According to our analysis, if one inserts an external light into Bob's signal port, due to the imperfect subtraction from the homodyne detector, the leakage of the external light contributes a displacement on the homodyne signal which causes detector electronics saturation. In consequence, Bob's quadrature measurement is not linear with the quadrature sent by Alice. By considering such vulnerability, a potential Eve can launch a full intercept-resend attack meanwhile she inserts an external light into Bob's signal port. By selecting proper properties of the external light, Eve actively controls the induced displacement value from the inserted light which results saturation of homodyne detection. In consequence, Eve can bias the excess noise due to the intercept-resend attack and the external light, such that Alice and Bob believe their excess noise estimation is below the null key threshold and they can still share a secret key. Our attack shows that the detector loopholes also exist in CV QKD, and it seems influence all the CV QKD systems using homodyne detection, since all the practical detectors have finite detection range.

KW - Continuous-variable

KW - Homodyne detection

KW - Practical secruity

KW - Quantum hacking

KW - Quantum key distribution

KW - Side channel attack

U2 - 10.1117/12.2195433

DO - 10.1117/12.2195433

M3 - Conference contribution

AN - SCOPUS:84961822563

T3 - Proceedings of SPIE - The International Society for Optical Engineering

BT - Electro-Optical and Infrared Systems

A2 - Rarity, John G.

A2 - Huckridge, David A.

A2 - Ebert, Reinhard

A2 - Gruneisen, Mark T.

A2 - Dusek, Miloslav

PB - SPIE

T2 - Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology

Y2 - 22 September 2015 through 23 September 2015

ER -

Qin H, Kumar R, Alleaume R. Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light. In Rarity JG, Huckridge DA, Ebert R, Gruneisen MT, Dusek M, editors, Electro-Optical and Infrared Systems: Technology and Applications XII; and Quantum Information Science and Technology. SPIE. 2015. 96480V. (Proceedings of SPIE - The International Society for Optical Engineering). doi: 10.1117/12.2195433

Quantum hacking on a practical continuous-variable quantum cryptosystem by inserting an external light

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