Photonik
Stand November 2008 (SCI und Scopus)
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1 |
F.
Kreller, M. Lowisch, J. Puls, and F. Henneberger |
Phys.
Rev. Lett. 75, 2420 (1995) |
Role of biexcitons in the stimulated emission of
wide-gap II-VI quantum wells |
121 |
|
2 |
T.
Flissikowski, A. Hundt, M. Lowisch, M. Rabe, and F. Henneberger |
Phys.
Rev. Letters 86, 3172 (2001) |
Photon beats from a single semiconductor quantum dot |
120 |
|
3 |
D.
Schikora, M. Hankeln, D. J. As, K. Lischka, T. Litz, A. Waag, T. Buhrow, and
F. Henneberger |
Phys.
Rev. B 54, (R) 8381 (1996) |
Epitaxial growth and optical transitions of cubic
GaN films |
119 |
|
4 |
M. Rabe,
M. Lowisch, and F. Henneberger |
J. Cryst.
Growth 184/185, 248 (1998) |
Self-assembled CdSe quantum dots formation by
thermally activated surface reorganization |
106 |
|
5 |
F.
Henneberger |
phys.
stat. sol. (b) 137, 371 (1986) |
Optical bistability at the fundamental absorption
edge of semiconductors |
100 |
|
6 |
V. May,
K. Henneberger, and F. Henneberger |
phys.
stat. sol. (b) 94, 611 (1979) |
Renormalization of polaritons due to virtual
formation of biexcitons at high densities of excitation |
75 |
|
7 |
F.
Henneberger and H. Roßmann |
phys.
stat. sol. (b) 121, 685 (1984) |
Resonatorless optical bistability based on
increasing nonlinear absorption |
74 |
|
8 |
F.
Henneberger and J. Puls |
Optics of
Semiconductor Nanostructures 479
(1993) |
Optical properties of quantum dots embedded in glass |
73 |
|
9 |
H.
Kirmse, R. Schneider, M. Rabe, W. Neumann, and F. Henneberger |
Appl.
Phys. Lett. 72, 1329 (1998) |
Transmission electron microscopy investigation of
structural properties of self-assembled CdSe/ZnSe quantum dots |
72 |
|
10 |
T.
Flissikowski, I. A. Akimov, A. Hundt, and F. Henneberger |
Phys.
Rev. B 68, 161309 (R) (2003) |
Single hole spin relaxation in a quantum dot |
60 |
|
11 |
M.
Lowisch, M. Rabe, B. Stegemann, F. Henneberger, M. Grundmann, V. Türck, and
D. Bimberg |
Phys.
Rev. B 54, (R) 11074 (1996) |
Zero-dimensional excitons in (Zn,Cd)Se quantum
structures |
52 |
|
12 |
O.
Mayrock, H.-J. Wünsche, and F. Henneberger |
Phys.
Rev. B 62, 16870 (2000) |
Polarization charge screening and Indium surface
segregation in (In,Ga)N/GaN single- and multiple-qunatum-wells |
50 |
|
13 |
F.
Henneberger and J. Voigt |
phys.
stat. sol. (b) 76, 313 (1976) |
Polariton effects in the optical spectra of
excitonic molecules |
49 |
|
14 |
J. Puls,
M. Rabe, H.-J. Wünsche, and F. Henneberger |
Phys.
Rev. B 60, (R) 16303 (1999) |
Magneto-optical study of the exciton fine structure
in self-assembled CdSe quantum dots |
49 |
|
15 |
V.
Jungnickel and F. Henneberger |
J. Lumin.
70, 238 (1996) |
Luminescence related processes in semiconductor
nanocrystals - The strong confinement regime |
48 |
|
16 |
M.
Lowisch, M. Rabe, F. Kreller, and F. Henneberger |
Appl.
Phys. Lett. 74, 2489 (1999) |
Electronic excitations and longitudinal optical
phonon modes of self-assembled CdSe quantum dots revealed by microprobe
studies |
48 |
|
17 |
I.
Haddad, M. Kretzschmar, H. Roßmann, and F. Henneberger |
phys.
stat. sol. (b) 138, 235 (1986) |
Increasing absorption bistability of CdS at
room-temperature |
46 |
|
18 |
O.
Brandt, J. Ringling, K. Ploog, H.-J. Wünsche, and F. Henneberger |
Phys.
Rev. B 58, (R) 15977 (1998) |
Temperature dependence of the radiative lifetime in
GaN |
44 |
|
19 |
T. Häupl,
H. Nickolaus, F. Henneberger, and A. Schülzgen |
phys.
stat. sol. (b) 194 , 219 (1996) |
Femto second degenerate four wave mixing study of
exciton coherence in wide-gap II-VI quantum wells |
41 |
|
20 |
B. Rau,
J. Puls, F. Henneberger, P. Waltereit, O. Brandt, M. Ramsteiner, and K. H.
Ploog |
Appl.
Phys. Lett. 77, 3343 (2000) |
In-plane polarization anisotropy of the spontaneous
emission of M-plane GaN/(Al,Ga)N quantum wells |
37 |
|
21 |
J. Puls,
V. Rossin, F. Henneberger, and R. Zimmermann |
Phys.
Rev. B 54, 4974 (1996) |
Magneto-optical studies of excitons in
Zn1-xCdxSe/ZnSe quantum wells |
36 |
|
22 |
H.
Nickolaus, H.-J. Wünsche, and F. Henneberger |
Phys.
Rev. Lett. 81, 2586 (1998) |
Exciton spin relaxation in semiconductor quantum
wells: The role of disorder |
34 |
|
23 |
D.
Litvinov, A. Rosenauer, D. Gerthsen, P. Kratzert, M. Rabe, and F. Henneberger |
Appl.
Phys. Letters 81, 640 (2002) |
Influence of the growth procedure on the Cd distribution
in CdSe/ZnSe heterostructures: Stranski-Krastanov versus two-dimensional
islands |
33 |
|
24 |
I.
Akimov, A. Hundt, T. Flissikowski, and F. Henneberger |
Appl.
Phys. Letters 81, 4730 (2002) |
Fine structure of the trion triple state in a single
self-assembled semiconductor quantum dDot |
32 |
|
25 |
F.
Henneberger, U. Woggon, J. Puls, and C. Spiegelberg |
J. Appl.
Phys. B 46, 19 (1988) |
Exciton-related optical nonlinearities in
semiconductors and seminconductor-microcrystallites |
31 |
|
26 |
F.
Henneberger, J. Puls, C. Spiegelberg, H. Roßmann, A. Schülzgen, and V.
Jungnickel |
Semicond.
Sci. Technol. 6, A41 (1991) |
Optical and electro-optical properties of II-VI
quantum dots |
31 |
|
27 |
G. V.
Astakov, D. R. Yakovlev, V. P. Kochereshko, W. Ossau, W. Faschinger, J. Puls,
F. Henneberger, S. A. Crooker, Q. McCulloch, D. Wolverson, N.A. Gippius, and
A. Waag |
Phys.
Rev. B 65, 165335 (2002) |
Binding energy of charged excitons in ZnSe-based
quantum wells |
31 |
|
28 |
A. V.
Koudinov, I. A. Akimov, Yu. G. Kusrayev, and F. Henneberger |
Phys.
Rev. B 70, 241305 (R) (2004) |
Optical and magnetic anisotropies of the hole states
in Stranski-Krastanov quantum dots |
30 |
|
29 |
H.-J.
Wünsche, S. Bauer, J. Kreissl, O. Ushakov, N. Korneyev, F. Henneberger, E.
Wille, H. Erzgräber, M. Peil, W. Elsäßer, and I. Fischer |
Phys. Rev.
Letters 94, 163901 (2005) |
Synchronization of delay-coupled oscillators: A
study of semiconductor lasers |
30 |
|
30 |
H.-J.
Wünsche, O. Brox, M. Radziunas, and F. Henneberger |
Phys.
Rev. Letters 88, 023901 (2002) |
Excitability of a semiconductor laser by a two-mode
homoclinic bifurcation |
30 |
|
31 |
J. Puls,
F. Henneberger, and J. Voigt |
phys.
stat. sol. (b) 119, 291 (1983) |
Excited states of bound excitons in Wurtzite-ype
semiconductors |
28 |
|
32 |
E. Runge,
A. Schülzgen, F. Henneberger, and R. Zimmermann |
phys.
stat. sol. (b) 188, 547 (1995) |
Relaxation kinetics and photoluminescence lineshape
of excitons in II-VI semiconductor quantum wells |
27 |
|
33 |
M. Rabe,
M. Lowisch, F. Kreller, and F. Henneberger |
phys.
stat. sol. (b) 202, 817 (1997) |
Self-assembled visible-bandgap II-VI quantum dots |
27 |
|
34 |
F.
Kreller, J. Puls, and F. Henneberger |
Appl.
Phys. Lett. 69, 2406 (1996) |
Temperature-dependent study of optical gain in
(Zn,Cd)Se/ZnSe multiple quantum well structures |
27 |
|
35 |
F.
Kreller, J. Puls, H.-J. Wünsche, and F. Henneberger |
Proc. 23rd
Internat. Conf. Physics of Semiconductors, Berlin, 1996, edited by M.
Scheffler and R. Zimmermann (World Scientific, Singapore 1996) 3, 2111 (1996) |
Temperature-dependent study on the lasing mechanism
in ZnCdSe-quantum well structures: Bi-exciton versus electron-hole plasma |
26 |
|
36 |
F.
Henneberger, J. Puls, H. Roßmann, U. Woggon, S. Freundt, C. Spiegelberg, and
A. Schülzgen |
(Invited),
J. Crystal. Growth 101, 632 (1990) |
Nonlinear optical propererties of wide-gap II-VI
bulk semiconductors and microrystallites |
26 |
|
37 |
S.
Sadofev, S. Blumstengel, J. Cui, J. Puls, S. Rogaschewski, P. Schäfer, Yu. G.
Sadofyev, and F. Henneberger |
Appl.
Phys. Letters 87, 091903 (2005) |
Growth of high-quality ZnMgO epilayers and ZnO/ZnMgO
quantum well structures by radical-source molecular-beam epitaxy on sapphire |
26 |
|
38 |
F.
Henneberger, J. Puls, and H. Roßmann |
(Invited),
J. Lum. 30, 204 (1985) |
Optical nonlinearity and bistability of CdS |
25 |
|
39 |
F.
Henneberger, K. Henneberger, and J. Voigt |
phys.
stat. sol. (b) 83, 439 (1977) |
Two-photon-Raman scattering by excitons via an
intermediate excitonic molecule, II. polarization properties and polariton
effects |
25 |
|
40 |
P.R.
Kratzert, J. Puls, M. Rabe, and F. Henneberger |
Appl.
Phys. Letters 79, 2814 (2001) |
Growth and magneto-optical properties of sub-10 nm
(Cd,Mn)Se quantum dots |
25 |
|
41 |
H.
Roßmann, A. Schülzgen, F. Henneberger, and M. Müller |
phys.
stat. sol. (b) 155, 287 (1990) |
Quantum confined DC Stark effect in
microcrystallites |
23 |
|
42 |
S. Bauer,
O. Brox, J. Kreissl, B. Sartorius, M. Radziunas, J. Sieber, H.-J. Wünsche, F.
Henneberger |
Phys.
Rev. E 69, 016206 (2004) |
Nonlinear dynamics of semiconductor lasers with
active optical feedback |
23 |
|
43 |
F.
Henneberger and V. May |
phys.
stat. sol. (b) 109, K139 (1982) |
Non-linear optical response and optical bistability
of excitonic molecules |
22 |
|
44 |
J. Puls
and F. Henneberger |
phys.
stat. sol. (a) 164, 499 (1997) |
Electron-hole exchange interaction of excitons |
22 |
|
45 |
S. Ten,
F. Henneberger, M. Rabe, and N. Peyghambariam |
Phys.
Rev. B 53, 12637 (1996) |
Femtosecond study of exciton tunneling in
(Zn,Cd)Se/ZnSe asymmetric double quantum wells |
22 |
|
46 |
F.
Henneberger and V. May |
phys.
stat. sol. (b) 109, K139 (1982) |
Non-linear optical response and optical bistability
of excitonic molecules |
22 |
|
47 |
P. R.
Kratzert, M. Rabe, and F. Henneberger |
Phys.
Rev. Lett. 83, 239 (1999) |
Dynamics of ripening of self-assembled II-VI
semicondutor quantum dots |
21 |
|
48 |
F.
Bechstedt and F. Henneberger |
phys.
stat. sol. (b) 81, 211 (1977) |
Two-photon-Raman-scattering by excitons via an
intermediate excitonic molecule, I. Bare exciton approach |
21 |
|
49 |
I. A.
Akimov, K. V. Kavokin, A. Hundt, and F. Henneberger |
Phys.
Rev. B 71, 075326 (2005) |
Electron-hole exchange interaction in a negatively
charged quantum dot |
21 |
|
50 |
J.
Reichow, J. Griesche, N. Hoffmann, C. Muggelberg, H. Roßmann, L. Wilde, F.
Henneberger, and K. Jacobs |
J. Cryst.
Growth 131, 277 (1993) |
Molecular beam epitaxial growth and characterization
of ZnSe on GaAs |
20 |
|
51 |
V.
Rossin, F. Henneberger, and J. Puls |
Phys.
Rev. B 53, 16444 (1996) |
Magnetic-field-induced formation of the exciton
magnetic polaron in ZnSe/Zn1-xMnxSe quantum-well structures |
20 |
|
52 |
J. Puls,
H.-J. Wünsche, and F. Henneberger |
Journal
of Chemical Physics 210, 235 (1996) |
Bi-excitons in wide-gap II-VI quantum wells.
Localization by alloy disorder |
19 |
|
53 |
F.
Henneberger, J. Puls, H. Roßmann, C. Spiegelberg, H. Kretzschmar, and I.
Haddad |
Phys.
Scripta T 13, 195 (1986) |
Optical nonlinearity and bistability of wide-gap
II-VI compounds |
19 |
|
54 |
J. Puls,
M. Rabe, A. Siarkos, and F. Henneberger |
Phys. Rev.
B 57, 14749 (1998) |
Excitonic properties of ZnSe/(Zn, Mg)Se quantum
wells: A model study of the tensile-strain situation |
19 |
|
55 |
H.
Nickolaus and F. Henneberger |
Phys.
Rev. B 57, 8774 (1998) |
Biexcitonic four-wave-mixing signal in quantum
wells: Photon-echo versus free-induction decay |
18 |
|
56 |
F.
Henneberger, K. Henneberger, and J. Voigt |
phys.
stat. sol. (b) 79, K 81 (1977) |
On the emission spectrum of excitonic molecules in
Wurzite-type semiconductors |
17 |
|
57 |
C.
Spiegelberg, F. Henneberger, and J. Puls |
Superlattices
and Microstructures 9, 487 (1991) |
Spectral hole-burning in quantum confined
semiconductor microcrystals |
17 |
|
58 |
O. V.
Ushakov, H.-J. Wünsche, F. Henneberger, I. A. Khovanov, L. Schimanski-Geyer,
and M. A. Zaks |
Phys.
Rev. Letters 95, 123903 (2005) |
Coherence resonance near a Hopf bifurcation |
17 |
|
59 |
S.
Schikora, P. Hövel, H.-J. Wünsche, E. Schöll, and F. Henneberger |
Phys.
Rev. Letters 97, 213902 (2006) |
All-optical noninvasive control of unstable steady
states in a semiconductor laser |
17 |
|
60 |
U.
Woggon, F. Henneberger, and M. Müller |
phys.
stat. sol. (b) 150, 641 (1988) |
Optical nonlinearities of semiconductor
microcrystallites |
16 |
|
61 |
V.V.
Rossin, J. Puls, and F. Henneberger |
Phys.
Rev. B 51, (R) 11209 (1995) |
Interface exciton magnetic polaron in
ZnSe/Zn1-xMnxSe quantum-well structures |
16 |
|
62 |
Tamm, O.
Brandt, J. Ringling, A. Trampert, K. H. Ploog, O. Mayrock, H.-J. Wünsche, and
F. Henneberger |
Phys.
Rev. B 61, 16025 (2000) |
Optical properties of heavily doped GaN/(Al,Ga)N
multiple quantum wells grown on 6H-SiC(0001) by reactive molecular-beam
epitaxy |
16 |
|
63 |
H.
Schömig and A. Forchel, S. Halm and G. Bacher, J. Puls and F. Henneberger |
Appl.
Phys. Letters 84, 2826 (2004) |
Magnetic imprinting of submicron ferromagnetic wires
on a diluted magnetic semiconductor quantum well |
16 |
|
64 |
C.
Spiegelberg, J. Puls, and F. Henneberger |
phys.
stat. sol. (b) 155, 353 (1990) |
Nonlinear optical properties of CdS at room
temperature. A comprehensive study |
16 |
|
65 |
H.
Roßmann and F. Henneberger |
phys.
stat. sol. (b) 131, 185 (1985) |
Resonatorless optical bistability of
CdS - reconsideration of transient effects due to lattice heating |
15 |
|
66 |
A.
Schülzgen, F. Kreller, F. Henneberger, M. Lowisch and J. Puls |
J. Cryst.
Growth 138, 575 (1994) |
Exciton dynamics and high density effects in
ZnSe/ZnMnSe-quantum structures grown by molecular beam epitaxy |
15 |
|
67 |
T.
Aichele, V. Zwiller, and O. Benson, I. Akimov and F. Henneberger |
J. Opt.
Soc. Am. B 20, 2189 (2003) |
Single CdSe quantum dots for high-bandwidth
single-photon generation |
15 |
|
68 |
O.
Ushakov, S. Bauer, O. Brox, H.-J. Wünsche, and F. Henneberger |
Phys.
Rev. Letters 92, 043902 (2004) |
Self-organization in semiconductor lasers with
ultra-short optical feedback |
15 |
|
69 |
J. Puls,
F. Henneberger, M. Rabe, and A. Siarkos |
J. Cryst.
Growth 184/185, 787 (1998) |
Dark exciton states and magneto-excitons in wide-gap
II-VI quantum wells |
14 |
|
70 |
P. R.
Kratzert, M. Rabe, and F. Henneberger |
phys.
stat. sol. 224, 179 (2001) |
Self-organized formation of wide-bandgap II-VI
quantum dots. Thermally activated surface re-organization versus 2D
stabilization |
14 |
|
71 |
M.
Lowisch, F. Kreller, J. Puls, and F. Henneberger |
phys.
stat. sol. (b) 188, 165 (1995) |
Excitonic nonlinearities and gain processes in
binary and ternary ZnSe-based quantum well structures |
14 |
|
72 |
A. Hundt,
J. Puls, and F. Henneberger |
Phys.
Rev. B 69, 121309 (R) (2004) |
Spin properties of self-organized diluted magnetic
(Cd,Mn)Se quantum dots |
14 |
|
73 |
T.
Flissikowski, A. Betke, I. A. Akimov, and F. Henneberger |
Phys.
Rev. Letters 92, 227401 (2004) |
Two-photon coherent control of a single quantum dot |
14 |
|
74 |
I. A.
Akimov, D. H. Feng, and F. Henneberger |
Phys.
Rev. Letters 97, 056602 (2006) |
Electron spin dynamics in a self-assembled
semiconductor quantum dot: The limit of low magnetic -fields |
14 |
|
75 |
W.
Heimbrodt, L. Gridneva, M. Happ, N. Hoffmann, M. Rabe, and F. Henneberger |
Phys.
Rev. B 58, 1162 (1998) |
Tunneling and energy transfer in ZnSe-based
semimagnetic double quantum wells |
13 |
|
76 |
F.
Henneberger, J. Puls, H. Roßmann, and I. N. Uraltsev |
phys.
stat. sol. (b) 121, K191 (1984) |
On the refractive index at the exciton resonance of
highly excited CdS |
12 |
|
77 |
W.
Rudolph, J. Puls, F. Henneberger, and D. Lab |
phys.
stat. sol. (b) 155, 49 (1990) |
Femtosecond studies of transient optical
nonlinearities in wide-gap II-VI compound |
12 |
|
78 |
J. Puls,
V. V. Rossin, F. Kreller, H.-J. Wünsche, S. Renisch, N. Hoffmann, M. Rabe,
and F. Henneberger |
J. Cryst.
Growth 159, 784 (1996) |
Bound- and bi-excitons in ZnCdSe/ZnSe multiple
quantum wells |
12 |
|
79 |
S.
Blumstengel, S. Sadofev, C. Xü, J. Puls, and F. Henneberger |
Phys.
Rev. Letters 97, 237401 (2006) |
Converting Wannier into Frenkel excitons in an
inorganic-organic hybrid semiconductor nanostructure |
12 |
|
80 |
I.
Rückmann, V. May, F. Henneberger, and J. Voigt |
J. Lum.
24/25, 593 (1981) |
Comparative optical studies of the high density
exciton gas in CdS |
11 |
|
81 |
J. Puls
and F. Henneberger |
phys.
stat. sol. (b) 121, K187 (1984) |
Saturation of the band-edge absorption of CdSxSe1-x
mixed crystals at room-temperature |
11 |
|
82 |
F.
Henneberger, J. Puls, and C. Spiegelberg |
Proceedings
in Physics 8, 156 (1986) |
Room-temperature optical nonlinearity of wide-gap
II-VI compounds |
11 |
|
83 |
D. R.
Yakovlev, J. Puls, G. V. Mikhailov, G. Astakhov, V. P. Kochereshko, W. Ossau,
J. Nürnberger, W. Faschinger, F. Henneberger, and G. Landwehr |
phys.
stat. sol. (a) 178, 501 (2000) |
Charged exciton dynamics in ZnSe/ZnMgSSe QWs |
11 |
|
84 |
F.
Henneberger and V. May |
phys.
stat. sol. (b) 98, K77 (1980) |
Dielectric liquied of Wannier-Mott excitons |
10 |
|
85 |
W.
Heimbrodt, M. Happ, and F. Henneberger |
Phys.
Rev. B 60, (R) 16326 (1999) |
Giant anti-stoke photoluminescence from semimagnetic
heterostructures |
10 |
|
86 |
J.
Piprek, H. Wenzel, H.-J. Wünsche, D. Braun, and F. Henneberger |
Proc. SPIE Vol.
2399, 605 (1995) |
Modeling light vs. current characteristics of
long-wavelength VCSELs with various DBR materials |
10 |
|
87 |
M.
Kretzschmar, F. Henneberger, H. Roßmann, and I. Haddad |
phys.
stat. sol. (b) 143, K71 (1987) |
Dynamical effects in increasing absorption
bistability of thermal origin |
10 |
|
88 |
J. Cui,
S. Sadofev, S. Blumstengel, J. Puls, and F. Henneberger |
Appl.
Phys. Letters 89, 051108 (2006) |
Optical gain and lasing of ZnO/ZnMgO multiple
quantum wells: From low to room temperature |
10 |
|
89 |
I. A.
Akimov, J. T. Andrews, and F. Henneberger |
Phys.
Rev. Letters 96, 067401 (2006) |
Stimulated emission from the biexciton in a single
self-assembled II-VI quantum dot |
10 |
|
90 |
F.
Henneberger and V. May |
phys.
stat. sol. (b) 98, K77 (1980) |
Dielectric liquied of Wannier-Mott excitons |
10 |
|
91 |
P. R.
Kratzert, M. Rabe, and F. Henneberger |
Appl.
surf. sci. 166, 332 (2000) |
Formation and stability of II-VI self-assembled
quantum dots revealed by in situ atomic force microscopy |
8 |
|
92 |
V. Z.
Tronciu, H.-J. Wünsche, J. Sieber, K. Schneider, and F. Henneberger |
Optics
Communications 182, 221 (2000) |
Dynamics of single mode semiconductor lasers with
passive dispersive reflectors |
8 |
|
93 |
O.
Mayrock, H.-J. Wünsche, F. Henneberger, C. Riva, V. A. Schweigert, and F. M.
Peeters |
Phys.
Rev. B 60, 5582 (1999) |
Weak localization of biexcitons in quantum wells |
8 |
|
94 |
C.
Spiegelberg, M. Kretzschmar, J. Puls, and F. Henneberger |
phys.
stat. sol. (b) 150, 769 (1988) |
Strong dispersive nonlinearity in the excitonic
region of wide-gap II-VI compounds |
8 |
|
95 |
S.
Sadofev, S. Blumstengel, J. Cui, J. Puls, R. Rogaschewski, and F. Henneberger |
Appl.
Phys. Letters 89, 201907 (2006) |
Visible band-gap ZnCdO heterostructures grown by
molecular beam epitaxy |
8 |
|
96 |
H.
Nickolaus, F. Henneberger, A. Schulzgen |
J. Cryst.
Growth 159, 780 (1996) |
Coherent exciton-exciton interaction in wide-gap
II-VI quantum wells - The role of alloy disorder |
7 |
|
97 |
H.
Weinert, F. Henneberger, U. Woggon, I. N. Uraltsev, and Brühl |
Phys.
Scripta 35, 76 (1987) |
Excitation intensity dependence of
GaAs-GaAlAs-superlattices photoluminescence |
7 |
|
98 |
U.
Streller, N. Hoffmann, A. Schülzgen, J. Griesche, H. Babucke, F. Henneberger,
and K. Jacobs |
Semicond.
Sci. Technol. 10, 201 (1995) |
Growth and optical properties of ZnSe/ZnMnSe quantum
structures |
7 |
|
99 |
F.
Henneberger, J. Puls, H. Roßmann, M. Kretzschmar, C. Spiegelberg, and A.
Schülzgen |
(Invited),
J. Physique 49-C2, 91 (1988) |
Nonlinear optical effects at the fundamental
absorption edge of wide-gap II-VI semiconductors |
6 |
|
100 |
H.
Babucke, V. Egorov, P. Thiele, J. Griesche, F. Henneberger, N. Hoffmann, M.
Rabe, and K. Jacobs |
phys.
stat. sol. (a) 152, 161 (1995) |
Optical properties of Zn1-xCdxSe/ZnSe quantum well
excitons in an electric field: Experiment and model calculations |
6 |
|
101 |
I. A.
Akimov, T. Flissikowski, A. Hundt, and F. Henneberger |
phys.
stat. sol. (a) 201, 412 (2004) |
Spin processes related to trions in quantum dots |
6 |
|
102 |
I.
Akimov, A. Hundt, T. Flissikowski, P. Kratzert, and F. Henneberger |
Physica E
17, 31 (2003) |
Energy spectrum of negatively charged single quantum
dot: trion and charged biexciton states |
6 |
|
103 |
D. Wruck,
R. Boyn, L. Parthier, and F. Henneberger |
Semicond.
Sci. Technol. 12, 179 (1997) |
Incorporation of rare earths into II-VI compounds
during MBE growth: Optical and structural studies of Sm-doped Tellurides |
6 |
|
104 |
A. Hundt,
J. Puls, A. V. Akimov, Y. H. Fan, and F. Henneberger |
Phys. Rev.
B 72, 033304 (2005) |
Photocarrier-induced spin heating and spin-lattice
relaxation in diluted magnetic Stranski-Krastanov quantum dots |
6 |
|
105 |
A. Hundt,
T. Flissikowski, M. Lowisch, M. Rabe, and F. Henneberger |
phys.
stat. sol. 224, 159 (2001) |
Excitation spectrum, relaxation and coherence of
single self-assembled CdSe quantum dots |
6 |
|
106 |
F.
Henneberger, J. Puls, A. Schülzgen, V. Jungnickel and C. Spiegelberg |
Advances
in Solid State Physics 32, 279 (1992) |
Optical properties of II-VI quantum dots in glass |
5 |
|
107 |
B.
Reinhold, M.Wienecke, F. Henneberger, A. Burchard, and ISOLDE collaboration |
phys.
stat. sol. (b) 210, 459 (1998) |
Acceptor correlated centers in II-VI compounds |
5 |
|
108 |
J. Puls,
W. Rudolph, F. Henneberger, and D. Lab |
phys.
stat. sol. (b) 150, 419 (1988) |
Femtosecond studies of room-temperature optical
nonlinearities in wide-gap II-VI compound |
5 |
|
109 |
A.
Schülzgen, F. Henneberger, and H. Roßmann |
phys.
stat. sol. (b) 150, 495 (1988) |
Cavityless dispersive bistability and optical
addressing using a nonlinear optical prism |
5 |
|
110 |
H.-J.
Wünsche and F. Henneberger |
phys.
stat. sol. (b) 76, 639 (1976) |
Transmission and reflectivity of highly excited
semiconductors due to the optical conversion of excitons into excitonic
molecules |
5 |
|
111 |
H.
Babucke, P. Thiele, T. Prasse, M. Rabe, and F. Henneberger |
Semicond.
Sci. Technol. 13, 200 (1998) |
ZnSe-based electro-optic waveguide modulators for
the blue-green spectral range |
5 |
|
112 |
J. Puls,
G. V. Mikhailov, S. Schwertfeger, D. R. Yakovlev, F. Henneberger, and W.
Faschinger |
phys.
stat sol. (b) 227, 331 (2001) |
High-excitation effects in the optical properties of
delta-doped ZnSe quantum wells |
5 |
|
113 |
S. A.
Gurevich, O. A. Lavrova, N. V. Lomasov, S. I. Nesterov, V. I. Skopina, E. M.
Tanklevskaya, V. V. Travnikov, A. Osinsky, Y. Qiu, H. Temkin, M. Rabe, and F.
Henneberger |
Semicond.
Sci. Technol. 13, 139 (1998) |
ZnCdSe/ZnSe quantum well wires fabricated by
reactive ion etching and wet treatment |
5 |
|
114 |
H.
Schömig and A. Forchel, S. Halm and G. Bacher, W. Kipferl and C. H. Back, J.
Puls and F. Henneberger |
J. Appl.
Phys. 95, 7411 (2004) |
Micromagnetoluminescence on
ferromagnetic-semiconductor hybrid nanostructures |
5 |
|
115 |
D. Wruck,
R. Boyn, L. Parthier, and F. Henneberger |
J. Cryst.
Growth 184/185, 119 (1998) |
Incorporation of rare earth into II-VI compounds
during MBE growth: optical and EXAFS studies of Sm-doped ZnTe |
5 |
|
116 |
J. Puls,
G. V. Mikhailov, F. Henneberger, D. R. Yakovlev, and A. Waag |
phys.
stat. sol. (b) 229, 637 (2002) |
Trionic gain in d-doped ZnSe quantum wells |
5 |
|
117 |
S. Halm,
G. Bacher, E. Schuster, W. Keune, M. Sperl, J. Puls, and F. Henneberger |
Appl.
Phys. Letters 90, 051916 (2007) |
Local spin manipulation in ferromagnet-semiconductor
hybrids |
5 |
|
118 |
J. Puls,
V. Jungnickel, F. Henneberger and A. Schülzgen |
J. Cryst.
Growth 138, 1004 (1994) |
Carrier dynamics in CdSe quantum dots embedded in
glass |
4 |
|
119 |
N. V.
Lomasov, V. V. Travnikov, S. O. Kognovitskií, S. A. Gurevich, S. I. Nesterov,
V. I. Skopina, M. Rabe, and F. Henneberger |
Phys.
Sol. State 40, 1413 (1998) |
Polarization spectra of excitonic luminescence of
bare ZnCdSe/ZnSe quantum wires |
4 |
|
120 |
F.
Henneberger |
phys.
stat. sol. (b) 70, K169 (1975) |
Direct optical formation of excitonic molecules due
to interband coupling of the electron-electron-interaction |
4 |
|
121 |
J. Puls,
I. Akimov, and F. Henneberger |
phys.
stat. sol. (b) 234, 304 (2002) |
Optical nonlinearities related to trions in quantum
wells and quantum dots |
4 |
|
122 |
F.
Henneberger, H. Roßmann, and A. Schülzgen |
phys.
stat. sol. (b) 145, K83 (1988) |
Mirrorless dispersive bistability at the brewster
angle using a nonlinear prism |
4 |
|
123 |
F.
Henneberger, N. S. Averkiev, and R. J. Rasulov |
phys.
stat. sol. (b) 109, 343 (1982) |
On a new photogalvanic effect due to free carrier
absorption |
4 |
|
124 |
J. Puls,
G. V. Mikhailov, F. Henneberger, D.R. Yakovlev, A. Waag, and F. Faschinger |
Phys.
Rev. Letters 89, 287401-1 (2002) |
Laser action of trions in a semiconductor quantum
well |
4 |
|
125 |
T. Pérez,
M. Radziunas, H.-J. Wünsche, C. R. Mirasso, and F. Henneberger |
IEEE
Photonics Technology Letters, Vol. 18, Nr. 20, 2135 (2006) |
Synchronization properties of two coupled
multisection semiconductor lasers emitting chaotic light |
4 |
|
126 |
S. Sadofev, P. Schäfer, Y.-H. Fan, S. Blumstengel, and F.
Henneberger |
Appl.
Phys. Letters 91, 201923 (2007) |
Radial-source molecular beam epitaxy of Zn(Mg,Cd)O
alloys on ZnO substrates |
4 |
|
127 |
S.
Sadofev, S. Kalusniak, J. Puls, P. Schäfer, S. Blumstengel, and F.
Henneberger |
Appl.
Phys. Letters 91, 231103 |
Visible-wavelength laser action of ZnCdO / (Zn,Mg)O
multiple quantum well structures |
4 |
|
128 |
S. Halm,
F. Seifert, T. Kümmell, G. Bacher, E. Schuster, W. Keune, J. Puls, and F.
Henneberger |
Proc.
12th Internat. Conf. on II-VI Compounds, Warzawa, Polen (2006) phys.stat.sol.
(c) 3, 1122 (2006) |
Manipulation of exciton spin states in a dilute magnetic
semiconductor by nanostructured ferromagnets |
4 |
|
129 |
F.
Kreller, H.-J. Wünsche, J. Puls, and F. Henneberger |
J. Cryst.
Growth 184/185, 614 (1998) |
On the laser action of (Zn, Cd)Se
multiple-quantum-well structures: Bi-excitons at elevated temperatures |
3 |
|
130 |
V. May,
K. Henneberger, R. Enderlein, and F. Henneberger |
J. Lum.
18/19, 563 (1979) |
Change of polariton dispersion due to virtual
biexciton formation at high polariton densities |
3 |
|
131 |
D. Wruck,
R. Boyn, L. Parthier, T. Bohrow, and F. Henneberger |
Mat. Sci.
& Engineering B44, 395 (1997) |
MBE-grown heavily Sm-doped ZnTe studied by optical
spectroscopy |
3 |
|
132 |
J. Puls,
F. Henneberger, I. N. Uraltsev, and A. M. Vasiliev |
Superlattices
and Microstructures 9, 503 (1991) |
Picosecond luminescence studies of vertical
transport in short-period superlattices |
3 |
|
133 |
J. Puls,
V. Rossin, and F. Henneberger |
Material
Science Forum 182-184, 743 (1995) |
Magneto-optical studies of Coulomb effects and band
parameters in ZnCdSe/ZnSe multi-quantum well structures |
3 |
|
134 |
J. Puls,
M. Rabe, and F. Henneberger |
J. Cryst.
Growth 214/215, 774 (2000) |
Fine structures of the exciton groundstate in
self-assembled CdSe quantum dots |
3 |
|
135 |
F.
Henneberger, J. Voigt, and E. Gutsche |
J. Lum.
20, 221 (1979) |
Optical orientation effects in the secondary
radiation of excitonic molecules |
3 |
|
136 |
V.V.
Travnikov, V.H. Kaibyshev, N.V. Lomasov, S.I. Nesterov, V.I. Skopina, E.M.
Tanklevskaya, J. Puls, M. Rabe, and F. Henneberger |
Nanotechnology
12, 602 (2001) |
Resonant exciton-phonon spectra in a ZnCdSe/ZnSe single
quantum well |
3 |
|
137 |
A. Hundt,
J. Puls, A. V. Akimov, and F. Henneberger |
phys.
stat. sol. (c) 2, 867 (2005) |
Spin-lattice relaxation in diluted magnetic
(Cd,Mn)Se quantum dots |
3 |
|
138 |
D. Feng,
I. A. Akimov, and F. Henneberger |
Phys.
Rev. Letters 99, 036604 (2007) |
Nonequilibrium nuclear-electron spin dynamics in
semiconductor quantum dots |
3 |
|
139 |
S.
Blumstengel, N. Koch, S. Duhm, H. Glowatzky, R. L. Johnson, C. Xü, A. Yassar,
J. P. Rabe, and F. Henneberger |
Phys.
Rev. B 73, 165323 (2006) |
Morphology, interfacial electronic structure and
optical properties of oligothiophenes grown on ZnSe(100) by molecular beam
deposition |
3 |
|
140 |
S. Halm,
P. E. Hohage, E. Neshataeva, F. Seifert, T. Kümmell, E. Schuster, W. Keune,
M. Sperl, Y.-H. Fan, J. Puls, F. Henneberger, G. Bacher |
phys.stat.sol.
(a) 204, 191 (2006) |
Incoherent and coherent spin manipulation in
ferromagnet-dilute magnetic semiconductor hybrids |
3 |
|
141 |
S. Halm,
P. E. Hohage, J. Nannen, G. Bacher, J. Puls, and F. Henneberger |
Phys.
Rev. B 77 Rapid Communications, 121303 (R) (2008) |
Precession of localized spins in an inhomogeneous
magnetic fringe field |
3 |
|
142 |
S.
Sadofev, S. Blumstengel, and F. Henneberger |
Appl.
Phys. Letters 84, 3678 (2004) |
Formation of CdSe quantum dots on homoepitaxial ZnSe |
2 |
|
143 |
H. Babucke,
P. Thiele, T. Prasse, M. Rabe, and F. Henneberger |
Appl.
Phys. Lett. 68 , 2332 (1996) |
ZnSe-based waveguide as wavelength-selective pockels
retarder in the blue-green spectral range |
2 |
|
144 |
J. Puls
and F. Henneberger |
J. Cryst.
Growth 214/215, 432 (2000) |
Interaction of localized excitons in semimagnetic
quantum wells with Manganese spin pairs |
2 |
|
145 |
U. Woggon
and F. Henneberger |
J.
Physique, 49-C2, 255 (1988) |
Optical nonlinearities of quantum confined excitons
in CuBr-microcrystallites |
2 |
|
146 |
I.
Haddad, M. Kretzschmar, H. Roßmann, and F. Henneberger |
phys.
stat. sol. (b) 138, 235 (1986) |
Increasing absorption bistability of CdS at
room-temperature |
2 |
|
147 |
I.
Rückmann, J. Kolenda, F. Henneberger, and M. Petrauskas |
phys.
stat. sol. (b) 150, 735 (1988) |
ps-laser induced transmission and absorption of
GaInAsP layers |
2 |
|
148 |
G. N.
Aliev, J. Puls, L. Parthier, F. Henneberger, and W. Heimbrodt |
Physica E
10, 511 (2001) |
LO-phonon assisted tunneling from spatially direct
to indirect exciton in semimagnetic double quantum well structures |
2 |
|
149 |
H.-J.
Wünsche, S. Renisch, and F. Henneberger |
Proc.
SPIE Vol. 2994, 102 (1997) |
Gain processes in blue-light-emitting quantum
structures: The role of excitons and Bi-excitons |
2 |
|
150 |
P.
Riblet, C. Spiegelberg, P. Faller, P. Gilliot, J. Puls, F. Henneberger and B.
Hönerlage |
Optical
Materials 3, 139 (1994) |
Determination of the anisotropic ambipolar diffusion
coefficient of CdS at room temperature |
2 |
|
151 |
M.
Radziunas, H.-J. Wünsche, O. Brox, and F. Henneberger |
Proc.
SPIE Series 4646, 420 (2002) |
Excitability of a DFB laser with short external
cavity |
2 |
|
152 |
D. Wruck,
R. Boyn, M. Wienecke, F. Henneberger, U. Troppenz, B. Hüttl, W. Bohne, B.
Reinhold, and H.-E. Mahnke |
Appl.
Phys. 91, 2847 (2002) |
The configuration of Cu in SrS: an X-ray absorption
fine structure and optical study |
2 |
|
153 |
V.
Rossin, T. Böttger, and F. Henneberger |
Phys.
Rev. B 54, 7682 (1996) |
Type-II interface exciton in ZnSe/(Zn,Mn)Se
heterostructures |
2 |
|
154 |
D. Wruck,
K, Lorenz, R. Vianden, B. Reinhold, H. –E. Mahnke, J. M. Baranowski, K.
Pakula, L. Parthier, and F. Henneberger |
Semicond.
Sci. Technol. 16, L77 (2001) |
Extended x-ray absorption fine structure and
photoluminescence study of Er-implanted GaN films |
2 |
|
155 |
J. Puls,
A. Hundt, H. Thomas, and F. Henneberger |
phys.stat.sol.
(b) 241, 568 (2004) |
Spin-lattice relaxation in diluted magnetic (Cd,
Mn)Se quantum dots |
2 |
|
156 |
H.
Nickolaus, M. Lowisch, F. Kreller, and F. Henneberger |
J. Cryst.
Growth 184/185, 641 (1998 |
Spin coherence and gain evolution in (Zn, Cd)Se/ZnSe
quantum wells |
1 |
|
157 |
H.
Babucke, P. Thiele, T. Prasse, V. Egorov, M. Rabe, and F. Henneberger |
J. Cryst.
Growth 159, 898 (1996) |
Electro-optical modulation in the blue-green
spectral range using ZnSe-based waveguides |
1 |
|
158 |
V. V.
Rossin, F. Henneberger, J. Puls |
J. Cryst.
Growth 159, 985 (1996) |
Dynamics of the magnetic polaron formation in
ZnSe/ZnMnSe quantum well structures |
1 |
|
159 |
S.
Sadofev, S. Blumstengel, J. Cui, J. Puls, F. Henneberger, R. Schneider, D.
Litvinov, and D. Gerthsen |
Japan. J.
Appl. Phys. 45, L 1250 (2006) |
Uniform and efficient UV-emitting ZnO/ZnMgO multiple
quantum wells grown by radical-source molecular beam epitaxy |
1 |
|
160 |
A.
Schülzgen, E. Runge, F. Henneberger, and R. Zimmermann |
Japan J.
Appl. Phys. 34, 155 (1994) |
Dynamics of exciton recombination in II-VI
semiconductor quantum wells |
1 |
|
161 |
F.
Henneberger and V. May |
phys.
stat. sol. (b), 113, K147 (1982) |
Non-linear optical response and retarded
photon-self-energy |
1 |
|
162 |
O.
Mayrock, H.-J. Wünsche, F. Henneberger, and O. Brandt |
phys.
stat. sol. (b) 216, 419 (1999) |
Influence of internal polarization fields on the
disorder broadening of excitons in (In,Ga)N/GaN quantum wells |
1 |
|
163 |
F.
Henneberger |
phys.
stat. sol. (b) 70, K169 (1975) |
Direct optical formation of excitonic molecules due
to interband coupling of the electron-electron-interaction |
1 |
|
164 |
A.
Schülzgen, J. Puls, F. Henneberger, and V. Jungnickel |
Physica B
185, 571 (1993) |
Time-resolved luminescence from II-VI quantum dots |
1 |
|
165 |
D. Wruck,
A. Klimakow, B. Rau, and F. Henneberger |
Semicond.
Sci. Technol. 16, 885 (2001) |
Study of the environment of Er in ZnSe using extended X-ray absorption
fine structure and optical spectroscopy |
1 |
|
166 |
F.
Kreller, A. Schülzgen, F. Henneberger, J. Puls, and U. Streller |
Solid-State
Electronics 37, 1137 (1994) |
Strain, confinement, carrier dynamics, and high
density effects in ZnSe/ZnMnSe-quantum structures |
1 |
|
167 |
M.
Lowisch, F. Kreller, J. Puls, and F. Henneberger |
Japan J.
Appl. Phys. 34, 83 (1995) |
Gain and excitonic nonlinearity in binary and
ternary ZnSe-based quantum well structures |
1 |
|
168 |
S.
Kalusniak, S. Sadofev, J. Puls, H.-J. Wünsche, and F. Henneberger |
Phys.
Rev. B 77, 113312 (2008) |
Polarization fields in (ZnCd)O/ZnO quantum well
structures |
1 |
|
169 |
S.
Blumstengel, S. Sadofev, C. Xü, J. Puls, R. L. Johnson†, H. Glowatzki, N.
Koch, and F. Henneberger |
Phys.
Rev. B 77, 085323 (2008) |
Electronic coupling in organic-inorganic
semiconductor hybrid structures with type-II energy level alignment |
1 |
|
170 |
S.
Blumstengel, N. Koch, S. Sadofev, P. Schäfer, H. Glowatzki, R. L. Johnson, J.
P. Rabe, and F. Henneberger |
Appl.
Phys. Letters 92, 193303 (2008) |
Interface formation and electronic structure of α-sexithiophene
on ZnO |
1 |
|
171 |
S. Halm,
E. Neshataeva, F. Seifert, T. Kümmell, E. Schuster, W. Keune, M. Sperl, J.
Puls, F. Henneberger, and G. Bacher |
Proc. 4th
International Conference on Physics and Application of Spin-Related Phenomena
in Semiconductors–IV, Sendai, Japan (2006) phys.stat.sol. (c) 3, 4359 (2006) |
Fe/Tb multilayer ferromagnets for local
semiconductor spin control |
1 |
|
172 |
M.
Lowisch, M. Rabe, N. Hoffmann, R. Mitdank, B. Stegemann, F. Henneberger, M.
Grundmann, V. Türck, and D. Bimberg |
Proc. 23rd
Internat. Conf. Physics of Semiconductors, Berlin, 1996, edited by M.
Scheffler and R. Zimmermann (World Scientific, Singapore 1996) 12, 1457
(1996) |
Zero-dimensional excitons in (Zn,Cd)Se quantum
structures |
0 |
|
173 |
F.
Henneberger, J. Puls, T. Häupl, F. Kreller, M. Lowisch, H. Nickolaus, A.
Schülzgen, H.-J. Wünsche, J. Griesche, N. Hoffmann, and M. Rabe |
Proc.
SPIE Vol. 2693, 222 (1996) |
Excitons, Bi-excitons, and stimulated emission in
wide-gap II-VI quantum wells |
0 |
|
174 |
J. Puls,
G. V. Mikhailov, F. Henneberger, D. R. Yakovlev, and A. Waag |
Proc.
SPIE Vol. 5023, 376
(2002) |
Optical gain and lasing of trions in delta-doped
ZnSe quantum wells |
0 |
|
175 |
O.
Ushakov, S. Bauer, O. Brox, H.-J. Wünsche, and F. Henneberger |
Proc.
SPIE Photonics West, Vol. 5349 (2004) |
Dynamics of lasers with ultra-short optical feedback |
0 |
|
176 |
O. V.
Ushakov, N. Korneyev, M. Radziunas, H.-J. Wünsche, and F. Henneberger |
Europhysics
Letters 79, 30004 (2007) |
Excitability of chaotic transients in a
semiconductor laser |
0 |
|
177 |
N. Korneyev,
M. Radziunas, H.-J. Wünsche, and F. Henneberger |
Proc.
SPIE Vol. 5452 (2004) |
Mutually injecting semiconductor lasers: simulations
for short and zero delay |
0 |
|
178 |
J. Puls,
P. Kratzert, A. Hundt, M. Rabe, and F. Henneberger |
Proc.
SPIE Vol. 5023, 526 (2002) |
Magneto-optical properties of self-assembled
(Cd,Mn)Se quantum dots |
0 |
|
179 |
B. Rau,
P. Waltereit, O. Brandt, A. Trampert, K.-H. Ploog, J. Puls, and F.
Henneberger |
Proc.
SPIE Vol.4283, 96 (2001) |
Comparative study of the spontaneous and stimulated
emission of M- and C-plane GaN/GaAIN quantum wells |
0 |
|
180 |
L.
Parthier, N. Hoffmann, T. Teubner, H. Roßmann, L. Wilde, F. Henneberger, and
K. Jacobs |
J.
Crystal Growth 127, 352 (1993) |
Growth and characterization of CdTe/ZnTe buffer
layers on GaAs substrates |
0 |
|
181 |
H.
Babucke, P. Thiele, M. Rabe, T. Prasse, and F. Henneberger |
Proc.
SPIE Vol. 2994, 402 (1997) |
II-VI electro-optical devices for visible wavelength
modulation |
0 |
|
182 |
U.
Woggon, F. Henneberger, and E. Weinert |
phys.
stat. sol. (b) 143, 611 (1987) |
On the bleaching of the A-bound exciton absorption
in GaP:N - an example for an electron-hole liquid induced optical
nonlinearity |
0 |
|
183 |
D. Wruck,
R. Boyn, L. Parthier, J. Röhrich, and F. Henneberger |
J. Appl.
Phys. 84, 6049 (1998) |
Incorporation of rare earth into II-VI compounds
during molecular beam epitaxial growth: Extended x-ray absorption fine
structure study of Sm-doped ZnTe |
0 |
|
184 |
F.
Henneberger and H.-J. Wünsche |
Physica B
272, 324 (1999) |
Exciton spin relaxation in semiconductor quantum
wells: the role of disorder |
0 |
|
185 |
C.
Spiegelberg, F. Henneberger, and J. Puls |
SPIE-Proceedings
1991 |
Spectral hole-burning of strongly confined CdSe
quantum dots |
0 |
|
186 |
I. A.
Akimov and F. Henneberger |
phys.stat.sol.
(c) 3, 841 (2006) |
Optical quantum control using II-VI quantum dots |
0 |
|
187 |
T.
Flissikowski, A. Betke, A. I. Akimov, and F. Henneberger |
phys.
stat. sol. (a) 202, 383 (2005) |
Coherent control of the biexciton in a single
quantum dot |
0 |
|
188 |
M.
Schmidbauer, T. Wiebach, H. Raidt, P. Schäfer, M. Hanke, R. Köhler, W.
Neumann, H. Kirmse, M. Rabe, F. Henneberger, and H. Wawra |
Mat. Res.
Soc. Symp. Proc. 583, 119 (2000) |
Evaluation of the strain field inside and around
growth islands by means of X-ray diffuse scattering |
0 |
|
189 |
A.
Schülzgen, E. Runge, F. Henneberger, and R. Zimmermann |
Material
Science Forum 182-184, 215 (1995) |
Exciton localization in ZnSe-based quantum wells |
0 |
|
190 |
S.
Kalusniak, S. Sadofev, J. Puls, and F. Henneberger |
Laser
& Photon. Rev., 1-11 /DOI 10.1002/lpor.200810040 (2008) |
ZnCdO/ZnO – a new heterosystem for green-wavelength
semiconductor lasing |
0 |
|
191 |
S.
Schikora, H.-J. Wünsche, and F. Henneberger |
Phys.
Rev. E 78, 025202 (R) (2008) |
All-optical noninvasive chaos control of a
semiconductor laser |
0 |
|
192 |
S. Halm,
P. E. Hohage, J. Nannen, E. Neshataeva, L. Schneider, G. Bacher, Y. Fan, J.
Puls, and F. Henneberger |
J. Phys.
D.: Appl. Phys. 41, 164007 (2008) |
Manipulation of spin states in a semiconductor by
microscale magnets |
0 |
|
193 |
S.
Blumstengel, S. Sadofev, and F. Henneberger |
New J.
Phys. 10, 065010 (2008) |
Electronic coupling of optical excitations in
organic / inorganic semiconductor hybrid structures |
0 |
|
194 |
H.-J.
Wünsche, S. Schikora, and F. Henneberger |
Proc. of
SPIE, 0277-786X, Vol. 6889, 6889 0A (2008) |
All-optical noninvasive control of semiconductor
lasers |
0 |
|
195 |
S.
Sadofev, S. Kalusniak, J. Puls, P. Schäfer, S. Blumstengel, S. Rogaschewski,
Y.-H. Fan, and F. Henneberger |
Proc. of
SPIE, Vol. 6895, 68950C (2008) |
ZnCdO / ZnO hetero- and quantum well structures for
light-emitting applications |
0 |
|
196 |
H.-J.
Wünsche, S. Schikora, and F. Henneberger |
in:
“Handbook of Chaos Control” (Eds. E. Schöll and H. G. Schuster), 2nd edition,
p. 455, Wiley-VCH, Weinheim (2008) |
Noninvasive Control of Semiconductor Lasers by
Delayed Optical Feedback |
0 |
|
197 |
I.
Akimov, D. H. Feng, and F. Henneberger |
in:
“Semiconductor Quantum Bits” (Eds. F. Henneberger and O. Benson), p. 81, Pan
Stanford Publishing Pte. Ltd., Singapore (2008) |
Nonequilibrium Optical Spin Cooling in Charged |
0 |
|
198 |
I.
Akimov, J. Puls, M. Rabe, and F. Henneberger |
in:
“Semiconductor Nanostructures” (Ed. D. Bimberg), p. 455, Springer-Verlag,
Heidelberg (2008) |
Visible-Bandgap II-VI Quantum Dot Heterostructures |
0 |
|
199 |
S. Halm,
E. Neshataeva, F. Seifert, T. Kümmell, E. Schuster, W. Keune, J. Puls, F.
Henneberger, and G. Bacher |
Proc.
28th International Conference on the Physics of Semiconductors, Vienna,
Austria AIP Conf. Proc. 893, 1355 (2007) |
Local control of carrier spin states in a
semiconductor by microscale ferromagnetic wires |
0 |
|
200 |
S. Ten,
F. Henneberger, M. Rabe, and N. Peyghambariam |
Proc.SPIE
Vol. 2693, 315 (1996) |
Exciton tunneling in wide-bandgap semiconductors |
0 |
|
|
Summe |
|
|
3033 |
letzte Änderung: 12.10.2011 id
