Publication detail

Strain-induced active tuning of the coherent tunneling in quantum dot molecules

ZALLO, E. TROTTA, R. KŘÁPEK, V. HUO, Y. ATKINSON, P. DING, F. ŠIKOLA, T. RASTELLI, A. SCHMIDT, O.

Original Title

Strain-induced active tuning of the coherent tunneling in quantum dot molecules

Type

journal article in Web of Science

Language

English

Original Abstract

We demonstrate experimentally the possibility to manipulate the coupling strength in an asymmetric pair of electronically coupled InGaAs quantum dots by using externally induced strain fields. The coupling strength of holes confined in the dots increases linearly with increasing tensile strain. A model based on k p theory explains the effect in terms of modified weight of the light hole component mediating the coupling in the barrier. Our results are relevant to the creation and control of entangled states in optically active quantum dots.

Keywords

Quantum Dots; Tunneling; k-p theory; strain.

Authors

ZALLO, E.; TROTTA, R.; KŘÁPEK, V.; HUO, Y.; ATKINSON, P.; DING, F.; ŠIKOLA, T.; RASTELLI, A.; SCHMIDT, O.

RIV year

2014

Released

19. 6. 2014

ISBN

1098-0121

Periodical

PHYSICAL REVIEW B

Year of study

89

Number

24

State

United States of America

Pages from

241303-1

Pages to

241303-5

Pages count

5