Formation of two-dimensional InAs quantum dot arrays by self-organized anisotropic strain engineering on InP (3 1 1)B substrates

Combining selective area growth and self-organized strain engineering for site-controlled local InAs/InP quantum dot arrays

Wang, J.
Yuan, J.
Otten, van, F.W.M.
Nötzel, R.

January 2011

Ordered InAs quantum dot (QD) arrays are formed by self-organized anisotropic strain engineering of ...

Ordered InAs/InP quantum dot arrays at telecom wavelength

Sritirawisarn, N.

January 2010

This dissertation demonstrates the growth and optical characterization of ordered InAs/InP quantum d...

InAs/InP quantum dots, dashes and ordered arrays

Sritirawisarn, N.
Nötzel, R.

January 2008

This paper reviews the growth and characterization of epitaxial self-assembled InAs/InP(100) quantum...

Formation of two-dimensional InAs quantum dot arrays by self-organized anisotropic strain engineering on InP (3 1 1)B substrates

Sritirawisarn, N.
Otten, van, F.W.M.
Soto Rodriguez, P.E.D.
Wera, J.L.E.
Nötzel, R.

January 2010

The authors report the formation of two-dimensional InAs quantum dot (QD) arrays by self-organized a...

Formation of linear InAs/InGaAsP/InP (1 0 0) quantum dot arrays by self-organized anisotropic strain engineering in chemical beam epitaxy

Sritirawisarn, N.
Otten, van, F.W.M.
Eijkemans, T.J.
Nötzel, R.

January 2009

The formation of laterally ordered linear InAs quantum dot (QD) arrays based on self-organized aniso...

Formation of linear InAs quantum dot arrays on InGaAsP/InP (100) by self-organized anisotropic strain engineering and their optical properties

Sritirawisarn, N.
Otten, van, F.W.M.
Eijkemans, T.J.
Nötzel, R.

January 2007

The formation of linear InAs quantum dot (QD) arrays based on self-organized anisotropic strainengin...

Formation of stacked linear InAs quantum dot arrays on InGaAsP/InP(100) by self-organized anisotropic strain engineering

Sritirawisarn, N.
Otten, van, F.W.M.
Eijkemans, T.J.
Nötzel, R.

January 2009

We have previously demonstrated the formation of linear InAs quantum dot (QD) arrays based on self-o...

Formation of InAs quantum dot arrays on GaAs (100) by self-organized anisotropic strain engineering of a (In,Ga)As superlattice template

Mano, T
Nötzel, R Richard
Hamhuis, GJ Rian
Eijkemans, TJ
Wolter, JH Joachim

January 2002

We demonstrate the formation of well-defined InAs quantum dot (QD) arrays by self-organized engineer...

Wavelength controlled multilayer-stacked linear InAs quantum dot arrays on InGaAsP/InP(100) by self-organized anisotropic strain engineering : a self-ordered quantum dot crystal

Sritirawisarn, N Nut
Otten, FWM van
Eijkemans, TJ
Nötzel, R Richard

January 2008

Multilayer-stacked linear InAs quantum dot (QD) arrays are created on InAs/InGaAsP superlattice temp...

Single InAs quantum dot arrays and directed self-organization on patterned GaAs (311)B substrates

Selcuk, E.
Silov, A.
Nötzel, R.

January 2009

Formation of laterally ordered single InAs quantum dot (QD) arrays by self-organized anisotropic str...

Evolution of ordered one-dimensional and two-dimensional InAs/InP quantum dot arrays on patterned InP (1 0 0) and (3 1 1)B substrates by self-organized anisotropic strain engineering

Sritirawisarn, N.
Wera, J.L.E.
Otten, van, F.W.M.
Nötzel, R.

January 2010

The formation of ordered InAs/InP quantum dot (QD) arrays is demonstrated on patterned InP (1 0 0) a...

Ordered quantum dot molecules and single quantum dots formed by self-organized anisotropic strain engineering

Lippen, van, T.
Nötzel, R.
Hamhuis, G.J.
Wolter, J.H.

January 2005

An ordered lattice of lateral InAs quantum dot (QD) molecules is created by self-organized anisotrop...

Combining selective area growth and self-organized strain engineering for site-controlled local InAs/InP quantum dot arrays

Wang, J.
Yuan, J.
Otten, van, F.W.M.
Nötzel, R.

January 2011

Ordered InAs quantum dot (QD) arrays are formed by self-organized anisotropic strain engineering of ...

Ordered InAs/InP quantum dot arrays at telecom wavelength

Sritirawisarn, N.

January 2010

This dissertation demonstrates the growth and optical characterization of ordered InAs/InP quantum d...

InAs/InP quantum dots, dashes and ordered arrays

Sritirawisarn, N.
Nötzel, R.

January 2008

This paper reviews the growth and characterization of epitaxial self-assembled InAs/InP(100) quantum...

Formation of two-dimensional InAs quantum dot arrays by self-organized anisotropic strain engineering on InP (3 1 1)B substrates

Sritirawisarn, N.
Otten, van, F.W.M.
Soto Rodriguez, P.E.D.
Wera, J.L.E.
Nötzel, R.

January 2010

The authors report the formation of two-dimensional InAs quantum dot (QD) arrays by self-organized a...

Formation of linear InAs/InGaAsP/InP (1 0 0) quantum dot arrays by self-organized anisotropic strain engineering in chemical beam epitaxy

Sritirawisarn, N.
Otten, van, F.W.M.
Eijkemans, T.J.
Nötzel, R.

January 2009

The formation of laterally ordered linear InAs quantum dot (QD) arrays based on self-organized aniso...

Formation of linear InAs quantum dot arrays on InGaAsP/InP (100) by self-organized anisotropic strain engineering and their optical properties

Sritirawisarn, N.
Otten, van, F.W.M.
Eijkemans, T.J.
Nötzel, R.

January 2007

The formation of linear InAs quantum dot (QD) arrays based on self-organized anisotropic strainengin...

Formation of stacked linear InAs quantum dot arrays on InGaAsP/InP(100) by self-organized anisotropic strain engineering

Sritirawisarn, N.
Otten, van, F.W.M.
Eijkemans, T.J.
Nötzel, R.

January 2009

We have previously demonstrated the formation of linear InAs quantum dot (QD) arrays based on self-o...

Formation of InAs quantum dot arrays on GaAs (100) by self-organized anisotropic strain engineering of a (In,Ga)As superlattice template

Mano, T
Nötzel, R Richard
Hamhuis, GJ Rian
Eijkemans, TJ
Wolter, JH Joachim

January 2002

We demonstrate the formation of well-defined InAs quantum dot (QD) arrays by self-organized engineer...

Wavelength controlled multilayer-stacked linear InAs quantum dot arrays on InGaAsP/InP(100) by self-organized anisotropic strain engineering : a self-ordered quantum dot crystal

Sritirawisarn, N Nut
Otten, FWM van
Eijkemans, TJ
Nötzel, R Richard

January 2008

Multilayer-stacked linear InAs quantum dot (QD) arrays are created on InAs/InGaAsP superlattice temp...

Single InAs quantum dot arrays and directed self-organization on patterned GaAs (311)B substrates

Selcuk, E.
Silov, A.
Nötzel, R.

January 2009

Formation of laterally ordered single InAs quantum dot (QD) arrays by self-organized anisotropic str...

Evolution of ordered one-dimensional and two-dimensional InAs/InP quantum dot arrays on patterned InP (1 0 0) and (3 1 1)B substrates by self-organized anisotropic strain engineering

Sritirawisarn, N.
Wera, J.L.E.
Otten, van, F.W.M.
Nötzel, R.

January 2010

The formation of ordered InAs/InP quantum dot (QD) arrays is demonstrated on patterned InP (1 0 0) a...

Ordered quantum dot molecules and single quantum dots formed by self-organized anisotropic strain engineering

Lippen, van, T.
Nötzel, R.
Hamhuis, G.J.
Wolter, J.H.

January 2005

An ordered lattice of lateral InAs quantum dot (QD) molecules is created by self-organized anisotrop...

Combining selective area growth and self-organized strain engineering for site-controlled local InAs/InP quantum dot arrays

Wang, J.
Yuan, J.
Otten, van, F.W.M.
Nötzel, R.

January 2011

Ordered InAs quantum dot (QD) arrays are formed by self-organized anisotropic strain engineering of ...

Ordered InAs/InP quantum dot arrays at telecom wavelength

Sritirawisarn, N.

January 2010

This dissertation demonstrates the growth and optical characterization of ordered InAs/InP quantum d...

InAs/InP quantum dots, dashes and ordered arrays

Sritirawisarn, N.
Nötzel, R.

January 2008

This paper reviews the growth and characterization of epitaxial self-assembled InAs/InP(100) quantum...

Formation of two-dimensional InAs quantum dot arrays by self-organized anisotropic strain engineering on InP (3 1 1)B substrates

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Formation of two-dimensional InAs quantum dot arrays by self-organized anisotropic strain engineering on InP (3 1 1)B substrates

Abstract

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