Page Content
There is no English
translation for this web page.
Deterministic quantum devices for quantum communication networks
[1]
- © TU Berlin
Funded by DFG in the framework of SFB 787
mehr zu: Deterministic quantum
devices for quantum communication networks [2]
Efficient sources of entangled photon pairs based on
deterministic quantum dot microlenses [3]
- © TU Berlin
Funded by DFG and RFBR
mehr zu: Efficient sources of
entangled photon pairs based on deterministic quantum dot
microlenses [4]
Energy-Efficient Surface-Emitters of Ultimate Bandwidth for
Silicon Photonics, Illumination, and Sensing: Micro- and Nano-Lasers
[5]
- © TU Berlin
Funded by DFG
mehr zu: Energy-Efficient
Surface-Emitters of Ultimate Bandwidth for Silicon Photonics,
Illumination, and Sensing: Micro- and Nano-Lasers
[6]
External quantum control of photonic semiconductor nanostructures
[7]
- © TU
Berlin
Funded by EU via an ERC Consolidator Grant
mehr zu: External quantum
control of photonic semiconductor nanostructures [8]
Fibre-coupled semiconductor single-photon source for secure
quantum-communication in the 1.3 µm range [9]
- © TU Berlin
Funded by the European Regional Development Fund of the European
Union in the framework of Pro Fit projects
mehr zu: Fibre-coupled
semiconductor single-photon source for secure quantum-communication in
the 1.3 µm range [10]
Integrated Sources of Entangled and Indistinguishable Photons
[11]
- © TU Berlin
Funded by DFG
mehr zu: Integrated Sources of
Entangled and Indistinguishable Photons [12]
Kosteneffizientes Gassensorsystem basierend auf
wellenlängenabstimmbaren Quantenpunkt-VCSEL-Arrays [13]
- © TU Berlin
Kofinanziert von der Europäischen Union im Rahmen des Programms
zur Förderung von Forschung, Innovationen und Technologie (ProFIT)
und vom National Centre for Research and Development (NCBR) in Polen.
mehr zu: Kosteneffizientes
Gassensorsystem basierend auf wellenlängenabstimmbaren
Quantenpunkt-VCSEL-Arrays [14]
Neuromorphic Computing using QD-Networks [15]
- © TU Berlin
Funded by Volkswagen Stiftung
mehr zu: Neuromorphic
Computing using QD-Networks [16]
Single quantum dot lasers and coupled cavity arrays [17]
- © TU Berlin
Funded by DFG
mehr zu: Single quantum dot
lasers and coupled cavity arrays [18]
------
Links: ------
[1]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/deterministic_quantum_devices
/parameter/en/font2/maxhilfe/
[2]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/deterministic_quantum_devices
/parameter/en/font2/maxhilfe/
[3]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/efficient_sources_of_entangle
d_photon_pairs/parameter/en/font2/maxhilfe/
[4]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/efficient_sources_of_entangle
d_photon_pairs/parameter/en/font2/maxhilfe/
[5]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/energy_efficient_surface_emit
ters/parameter/en/font2/maxhilfe/
[6]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/energy_efficient_surface_emit
ters/parameter/en/font2/maxhilfe/
[7]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/external_quantum_control_of_p
hotonic/parameter/en/font2/maxhilfe/
[8]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/external_quantum_control_of_p
hotonic/parameter/en/font2/maxhilfe/
[9]
https://www.ifkp.tu-berlin.de/menue/research_groups
/ag_reitzenstein/projekte/fibre_coupled_semiconductor_s
ingle_photon_source/parameter/en/font2/maxhilfe/
[10]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/fibre_coupled_semiconductor_
single_photon_source/parameter/en/font2/maxhilfe/
[11]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/integrated_sources_of_entang
led_and/parameter/en/font2/maxhilfe/
[12]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/integrated_sources_of_entang
led_and/parameter/en/font2/maxhilfe/
[13]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/kosteneffizientes_gassensors
ystem_qd_sense/parameter/en/font2/maxhilfe/
[14]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/kosteneffizientes_gassensors
ystem_qd_sense/parameter/en/font2/maxhilfe/
[15]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/neuromorphic_computing/param
eter/en/font2/maxhilfe/
[16]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/neuromorphic_computing/param
eter/en/font2/maxhilfe/
[17]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/single_quantum_dot_lasers/pa
rameter/en/font2/maxhilfe/
[18]
https://www.ifkp.tu-berlin.de/menue/research_group
s/ag_reitzenstein/projekte/single_quantum_dot_lasers/pa
rameter/en/font2/maxhilfe/
