outputgegevens 2009 fom-programma nr. 45 'photons in ... · "waves in complex media"...

FOM - 10.0614

OUTPUTGEGEVENS 2009

FOM-programma nr. 45

'Photons in complex media'

juni 2010

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Inhoudsopgave van FOM-programma 'Photons in complex media' (nr. 45) blz. Voortgangsverslag van de programmaleider ----------------------------------------------------- 2 Highlight uit het FOM-Jaarboek 2009 --------------------------------------------------------------- 4 Fact sheet d.d. 01-01-2010 ------------------------------------------------------------------------------ 5 Historisch kwantitatief overzicht van input en output ----------------------------------------- 7 Actuele personele bezetting --------------------------------------------------------------------------- 8 FOM-A-07 -------------------------------------------------------------------------------------------------- 9 FOM-L-02 ------------------------------------------------------------------------------------------------- 11 FOM-L-05 ------------------------------------------------------------------------------------------------- 14 FOM-T-23 ------------------------------------------------------------------------------------------------- 16

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Voortgangsverslag van de programmaleider Collaborations The collaboration between the participating groups has become stronger and stronger. The Twente (Mosk) and Amsterdam (Lagendijk) groups now work basically as one combined team on the development and applications of the exciting wavefront-shaping techniques. The experimental group (Van Exter) and the theory group (Beenakker) in Leiden have a strong collaboration on the field of quantum optics and more specifically on entanglement. They have used random matrix theory to quantify the expected intensity contrast in the two-photon speckle and relate it to the expected contrast in the ordinary (one-photon) intensity speckle and the dimensionality of the incident entanglement. The Amsterdam and Twente group are exchanging samples. The Amsterdam group recently supplied the Leiden group with samples. It is clear that also after the end of the FOM-program the collaborations will continue to take place. Results With wavefront shaping the first experimental and theoretical investigation of the spatial size of a focus obtained by wavefront shaping was performed. Strikingly, in scattering systems the scatterers can improve the focusing, and light focused through scattering matter may even form a focus that is smaller than the diffraction limit of the non-scattering system. This work was highlighted in Nature Photonics. The frequency dependence of wavefront-shaped light have been obtained in a trilateral collaboration between the UT, AMOLF and Leiden. As announced in the program description new experiments and theory were indeed developed on the emission rates of quantum emitters in a disordered material by the Twente group. The variance of the emission rates in specially prepared random samples these materials was determined experimentally and compared to various models. This research will be continued in collaboration with the Amsterdam group, and in particular to include the Förster energy-transfer processes The first observation of multifractal behaviour of localized wave functions was reported by the Amsterdam group. A new technique was invented (pressure tuning) to analyze multiple scattering samples in a noninvasive way. The work in Leiden on 'photons in complex media' involves three projects, dealing with (i) scattering at rough metallic interfaces, (ii) the generation and characterization of quantum-entangled photon pairs, and (iii) scattering of quantum-entangled photon pairs. The dependence of the Goos-Hänchen shift on the surface properties of an air-metal interface was investigated. They have analyzed and optimized the generation of spatial entanglement in spontaneous parametric downconversion. Intriguing spatial structures in the 2-photon correlations yield detailed information on the entanglement. Random scattering of spatially-entangled photons was studied in various ways. In collaboration with the Amsterdam group the very difficult experiment of measuring enhanced backscattering with entangled photons will be tried.

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The group of Beenakker group studied the photonic crystals with a two-dimensional triangular lattice, that have a conical singularity in the spectrum. Close to this so-called Dirac point, Maxwell's equations reduce to the Dirac equation for an ultrarelativistic spin-1/2 particle. They have shown that the half-integer spin and the associated Berry phase remain observable in the presence of disorder in the crystal. While constructive interference of a scalar (spin-zero) wave produces a coherent backscattering peak, consisting of a doubling of the disorder-averaged reflected photon flux, the destructive interference caused by the Berry phase suppresses the reflected intensity at an angle which is related to the angle of incidence by time-reversal symmetry. They have demonstrated this extinction of coherent backscattering by a numerical solution of Maxwell's equations and compared with analytical predictions from the Dirac equation. Their theoretical predictions of graphene-like physics in photonic crystals with a Dirac point in the spectrum has been tested experimentally by Dr. Michiel de Dood in the experimental Leiden group.

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FOM - 01.0013/12 datum: 01-01-2010 APPROVED FOM PROGRAMME Number 45. Title (code) Photons in complex media (WCM) Executive organisational unit BUW Programme management Prof.dr. A. Lagendijk Duration 2002-2012 Cost estimate M€ 4.7 Concise programme description a. Objectives • To force breakthroughs in the understanding of the scattering and preservation of correlated photon

states propagating through complex photonic media. • To obtain a thorough understanding of the propagation, scattering and diffraction of waves in media

with a high degree of complexity.

b. Background, relevance and implementation In many areas of the physical sciences propagation of waves in complex media plays a central role. Acoustics, medical sciences, remote sensing, optics, and seismics are just a few examples. The com-plexity of the media that support wave propagation can be classified in a number of ways. Many different types of inhomogeneities can be envisaged, varying from totally random, via quasi-periodic, and waveguide structures to fully periodic. The spatial inhomogeneities could be of a self-organised form, or the fruit of precise engineering. In the first phase, the programme has successfully pursued the objectives to provide a thorough under-standing of waves in complex media, and to provide a multidisciplinary platform for research. Novel research was stimulated by the programme. The second phase of the program has a more concentrated character than the first phase. In many com-plex media, especially in the optical regime, the majority of advances is expected to occur in the realm of dynamic and quantum fluctuations. Spatial and temporal correlations and fluctuations have become an important focal point in modern transport theory. Now the time has come to bring together two worlds that have been far apart: the world of quantum optics and the world of light scattering. To reflect the focused character of the second part of the programme the name of the programme been changed from "Waves in complex media" to the more specific "Photons in complex media". The participating groups will study the scattering and preservation of incoming correlated photon states propagating through complex photonic media, as well as the propagation of photon wave packets originating from photon sources inside photonic media. These photonic materials play an essential role in transport and processing of quantum information. The degree of opaqueness of relevant photonic materials may vary from almost transparent, for waveguides and fibers, to strongly scattering, and especially materials in the localized regime are of great interest for quantum optics. The world of quantum optics is developing - it seems - at an ever increasing rate. A central point - sub-ject to intense research - is the retention of crucially correlated quantum states, such as entangled states. These non-classical correlations play a central role in the emerging field of quantum computing and quantum information processing, with fascinating prospects as quantum teleportation. A central research endeavor is the control of the dynamics of large quantum systems to investigate complex physical and computational problems.

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Open quantum systems realized in complex photonic matter are an ideal setting to study the interface between the classical and the quantum world, shedding light on the quantum measurement process and its back-action on the quantum system under test. Progress made in understanding classical waves in complex media has led to a number of practical applications, and is generating new ones at a rate greater than ever. Examples are remote optical sensing ('looking through a cloud'); inverse optical scattering ('find the mouse in the milk'); applied optics (quality control of optical systems by controlling surface roughness); optical devices and (random) lasers. Likewise the interplay between quantum effects and the unavoidable scattering one has in real world applications will likely be a determining factor of the feasibility of quantum technology. Entanglement, and its robustness under perturbations such as decoherence and scattering, is the essence of quantum information technology. Many marvellous applications of this developing field have been put forward, ranging from cryptography and code breaking to quantum computing and teleportation. More technical applications in other areas, like quantum electronic circuits as sensitive, nano-electronic measurement devices and detectors are also foreseeable. If some of these technologies materialize in the near future, they will have a significant impact on society. Funding salarispeil CAO tot 01-07-2010 Phase I (45-1) bedragen in k€ < 2009 2010 2011 2012 2013 2014 > 2015 Totaal

FOM-basisexploitatie 2.255 - - - - - - 2.255

FOM-basisinvesteringen 218 - - - - - - 218

Doelsubsidies NWO - - - - - - - -

Doelsubsidies derden (inv. univ.) 72 - - - - - - 72

Totaal 2.545 - - - - - - 2.545 Phase II (45-2) bedragen in k€ < 2009 2010 2011 2012 2013 2014 > 2015 Totaal

FOM-basisexploitatie 1.664 359 145 - - - - 2.168

FOM-basisinvesteringen - - - - - - - -

Doelsubsidies NWO - - - - - - - -

Doelsubsidies derden (inv. univ.) - - - - - - - -

Totaal 1.664 359 145 - - - - 2.168

Source documents and progress control a) Original programme proposal: FOM-00.1672/1 b) Ex ante evaluation: FOM-02.0111/D c) Decision Executive Board: FOM-02.0765 d) Midterm evaluation document: FOM-05.1083 e) Midterm evaluation: FOM-05.1252/D, FOM-05.1716 f) Decision Executive Board: FOM-05.1755 g) Programme proposal second phase: FOM-06.1524 h) Decision Executive Board: FOM-07.0295/D

Remarks None. MG par. HOZB Subgebieden: Fase 1: 70% COMOP, 30% FeF Fase 2: 85% COMOP, 15% FeF

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Historisch kwantitatief overzicht van input en output

FOM-programma 'Photons in complex media' (nr. 45) INPUT personeelsaantallen (in gerealiseerde fte) WP/V WP/T OIO NWP

totaal op activiteitenniveau (in k€ )

2003 p.m. p.m. p.m. p.m. 619

2004 p.m. p.m. p.m. p.m. 546

2005 p.m. p.m. p.m. p.m. 497

2006 - - 6,3 - 377

2007 - 0,3 4,9 0,2 347

2008 - 3,1 5,3 1,0 671

2009 - 3,9 4,8 1,2 523

OUTPUT proefschriften overige wetenschappe-

lijke publicatiesoverige producten van

wetenschappelijke activiteitvakpublicaties

2003 2 13 9 1

2004 - 12 21 1

2005 1 18 19 -

2006 2 9 13 -

2007 2 14 22 4

2008 5 19 41 2

2009

Promoties

2003 Martijn Wubs, 11 juni 2003, FOM-A-03. Lydia Bechger, 18 december 2003, FOM-T-23.

2005 Marlies Goorden, 15 september 2005, FOM-L-05.

2006 Chuanjian Shen, 19 mei 2006, FOM-G-12. Thijs Klaassen, 23 november 2006, FOM-L-02.

2007 Sijmen Gerritsen, 20 maart 2007, FOM-D-09. Graciana Puentes, 16 mei 2007, FOM-L-02.

2008 Rimco Bernardus Johannes Geels, 28 maart 2008, AMOLF. Ioana Mihaela Barbu, 9 april 2008, AMOLF. Peter van Capel, 17 september 2008, FOM-U-12. Bernard C. Kaas, 25 september 2008, AMOLF. Lennard Karssen, 8 oktober 2008, FOM-U-12.

2009 Geen.

Werkgroep FOM-A-07

Werkgroepleider Dr. R. Sprik

Affiliatie

Binnen de werkgroep actieve U(H)D's

FOM-programma Photons in complex media

Titel van het project + nummer Waves in random media 02WCM03-2

FOM medewerker(s) op het project

Naam Soort Personeel Datum in dienst Datum uit dienst

OA Antoniuk OIO 15 okt 2005 14 okt 2010

1. Academische publicaties

a. Publicaties in gerefereede tijdschriften

Geen

b. Publicaties in proceedings c.q. andere tijdschriften

Geen

c. Bijdragen aan wetenschappelijke boeken (hoofdstukken dan wel gehele boek)

O. Antoniuk, R. Sprik, Measurement and simulation of Random Matrix Statistics inAluminum Mesoscopic Cavities, TOPICS ON CHAOTIC SYSTEMS: selected articles ofChaos 2008, , , World Scientific , , 2009

1.

R. Sprik, Multi Channel Wave Transfer in Sparsely Connected Systems, TOPICS ONCHAOTIC SYSTEMS: selected articles of Chaos 2008, , , World Scientific, , 2009

2.

d. Proefschriften

Geen

2. Voordrachten, posters, prijzen en nevenactiviteiten

a. Voordrachten op uitnodiging op internationale conferenties en bijeenkomsten

O. Antoniuk, Time – Reversal Experiments and Random Matrix Statistics in AluminumMesoscopic Cavities with Broken Time – Reversal Symmetry, Seminar group , SeminarTheory Group Duisburg, 03 mrt 2009, Duisburg, Duitsland

1.

R. Sprik, Wave propagation in complex systems, Colloquium Iniv. Duisburg, 18 jun 2009, DuisburgDuisburg, Duitsland

2.

b. Overige voordrachten en posters op (internationale) conferenties en andere(wetenschappelijke) bijeenkomsten

R. Sprik, Exploiting waves in complex media, Colloquium Amolf, 02 mrt 2009, Amsterdam, Nederland

1.

O. Antoniuk, Breaking of timereversal symmetry of elastic waves in chaotic cavity byamplified feedback Loop, Random Matrices and Integrability: From Theory to Application,25 mrt 2009, Yad Hasmona, Israel

2.

O. Antoniuk, R. Sprik, Measurement and simulation of Random Matrix Statistics inAluminum Mesoscopic Cavities,, Physics@FOM 2009, 22 jan 2009, Veldhoven, Nederland

3.

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c. Ontvangen prijzen

Geen

d. Bekleden van posities in organisatie congressen, wetenschappelijkesamenwerkingsverbanden, adviesraden, internationale panels, redacteurschap bijtijdschriften

Organisation of symposium ‘Glass Formation in Colloids’, march 11, 2009, Amsterdam1.

3. Kennisoverdracht (maatschappij en economie)

a. Octrooien

Geen

b. Contacten met de industrie (inclusief adviserende of andere functies), nieuwebedrijvigheid naar aanleiding van het project of contacten met andere vakgebieden

As part of an ongoing effort to exploit scattering technqiues in applications contacts havebeen made with various small and large industries. For example Corus (steel manufacturer),Airborne and ADSE (airplane industry), and SHELL (seismology).

1.

c. Optredens op televisie, radio of bij publieksevenementen

Geen

d. Publicaties in buitenlandse publieke tijdschriften, kranten of internet

Geen

e. Overige professionele producten (software etc.)

Geen

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Werkgroep FOM-L-02

Werkgroepleider Prof.dr. J.P. Woerdman

Affiliatie

Binnen de werkgroep actieve

U(H)D's

Dr. M.J.A. de Dood, dr. E.R. Eliel, dr. M.P. van

Exter, prof.dr. G.W. 't Hooft


Titel van het project +

nummer

Light scattering with entangled twin photons

07WCM12



JB Gotte WP/T 01 okt 2007 30 sep 2009

HDL Pires OIO 01 feb 2008 31 jan 2012

WH Peeters OIO 01 mei 2007 14 jun 2010



M. Merano, J.B. Götte, A. Aiello, M.P. van Exter, J.P. Woerdman, Goos-Hänchen shift for arough metallic mirror, OPTICS EXPRESS, 17, 10864, 2009

1.

H. Di Lorenzo Pires, M.P. van Exter, Observation of near-field correlations in spontaneousparametric down-conversion, PHYSICAL REVIEW A, 79, 041801, 2009

2.

H. Di Lorenzo Pires, C.H. Monken, M.P. van Exter, Direct measurement of transverse-modeentanglement in two-photon states, PHYSICAL REVIEW A, 80, 022307, 2009

3.

H. Di Lorenzo Pires, M.P. van Exter, Near-field correlations in the two-photon field, PHYSICAL REVIEW A, 80, 053820, 2009

4.

W.H. Peeters, J.J. Renema, M.P. van Exter, Engineering of two-photon quantum correlationbehind a double slit, PHYSICAL REVIEW A, 79, 043817, 2009

5.

C.W.J. Beenakker, J.W.F. Venderbos, M.P. van Exter, Two-photon speckle as a probe ofmulti-dimensional entanglement, PHYSICAL REVIEW LETTERS, 102, 193601, 2009

6.


Geen


Geen

d. Proefschriften

Geen



J.B. Götte, Goos-Hänchen shift in external reflection, University of Bristol, 22 apr 2009, BristolBristol, United Kingdom

1.

J.B. Götte, Goos-Hänchen shift in external reflection, University of St. Andrews, 26 jun2009, St. Andrews, United Kingdom

2.

W.H. Peeters, J.J.D. Moerman, M.P. van Exter, Observation of two-photon speckle, 3.- 11 -

FOM@Physics, 20 jan 2009, Veldhoven, NederlandM.P. van Exter, H. Di Lorenzo Pires, Near-field correlations in the two-photon field, CLEO/IQEC 2009, 01 jun 2009, Baltimore, USA

4.

H. Di Lorenzo Pires, M.P. van Exter, Measurement of quantum spiral bandwidth ofentangled two-photon states, AMO Conference, 06 okt 2009, Lunteren, Nederland

5.

H. Di Lorenzo Pires, C. Monken, M.P. van Exter, Direct Measurement of Transverse ModeEntanglement in Two-Photon States, Frontiers in Optics, 11 okt 2009, San Jose, USA

6.


H. Di Lorenzo Pires, Structure of the two-photon field (voordracht), HIDEAS workshop, 15sep 2009, Leiden, Nederland

1.

H. Di Lorenzo Pires, C. Monken, M.P. van Exter, Orbital-angular-momentum entanglementof photon pairs (voordracht), SSQIP meeting, 26 nov 2009, Delft, Nederland

2.


H. Di Lorenzo Pires: "Direct Measurement of Transverse Mode Entanglement inTwo-Photon States". Emil Wolf Outstanding Student Paper Competition Award,Subcommittee Quantum Electronics, awarded by the OSA Foundation at the Conference"Frontiers in Optics", San José, USA, 11-15 October 2009.

1.


J.P. Woerdman: Koninklijke Nederlandse Akademie van Wetenschappen, lid1.J.P. Woerdman: Associate Editor of Opt. Commun.2.J.P. Woerdman: Wetenschappelijke Adviesraad van het Van der Waals-Zeeman Instituut(UvA), lid

3.

J.P. Woerdman: HIDEAS consortium (EU)4.J.P. Woerdman: PHORBITECH consortium (EU)5.E.R. Eliel: HIDEAS consortium (EU)6.E.R. Eliel: MINOS consortium (EU)7.E.R. Eliel: PHORBITECH consortium (EU)8.M.P. van Exter: Bestuurslid van de AMO-sectie van de NNV9.


a. Octrooien

G.W. 't Hooft, G.W. Lucassen, J.P. Woerdman (jointly by Leiden University and Philips), Collagen microscopy with orbital angular momentum, LURIS INV-09LU242, PHILIPSID673227, , Filed

1.


Geen


Geen


Geen

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Geen

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Werkgroep FOM-L-05

Werkgroepleider Prof.dr. C.W.J. Beenakker

Affiliatie

Binnen de werkgroep actieve

U(H)D's


Titel van het project + nummerPhotons in complex media: theory

07WCM09



B Beri WP/T 01 sep 2008 31 aug 2009

CW Groth OIO 01 jul 2007 30 jun 2011

JK Asboth WP/T 08 sep 2008 07 sep 2010



B. Beri, J.N. Kupferschmidt, C.W.J. Beenakker, and P.W. Brouwer, Quantum limit of thetriplet proximity effect in half-metal-superconductor junctions, PHYSICAL REVIEW B, 79, 024517, 2009

1.

B. Beri, Dephasing-enabled triplet Andreev conductance, PHYSICAL REVIEW B, 79, 245315, 2009

2.

B. Beri, Generalization of the Poisson kernel to the superconducting random-matrixensembles, PHYSICAL REVIEW B, 79, 214506, 2009

3.

C.W.J. Beenakker, C.W. Groth, and A.R. Akhmerov, Nonalgebraic length dependence oftransmission through a chain of barriers with a Lévy spacing distribution, PHYSICALREVIEW B, 79, 024204, 2009

4.

C.W. Groth, M. Wimmer, A.R. Akhmerov, J. Tworzydlo, and C.W.J. Beenakker, Theory of thetopological Anderson insulator, PHYSICAL REVIEW LETTERS, 103, 196805, 2009

5.

A.R. Akhmerov, C.W. Groth, J. Tworzydlo, and C.W.J. Beenakker, Switching of electricalcurrent by spin precession in the first Landau level of an inverted-gap semiconductor,PHYSICAL REVIEW B, 80, 195320, 2009

6.


Geen


Geen

d. Proefschriften

Geen



Geen

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Geen


Geen


Geen


a. Octrooien

Geen


Geen


Geen


Geen


Geen

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Werkgroep FOM-T-23

Werkgroepleider Dr. A.P. Mosk

Affiliatie

Binnen de werkgroep

actieve U(H)D's


Titel van het project +

nummer

Quantum fluctuations in disordered photonic

mediaprobed by single emitters 07WCM11



D Akbulut OIO 01 aug 2009 30 jun 2011

MD Birowosuto WP/T 15 feb 2008 14 feb 2010

JM van den Broek TP/T 17 jul 2009 16 mei 2010



Molen, K.L. van der, Mosk, A.P. & Lagendijk, A. , Relaxation oscillations in long-pulsedrandom lasers, PHYSICAL REVIEW A, 80, 1-4, 2009

1.

Cesa, Y., Blum, C., Broek, J.M. van den, Mosk, A.P., Vos, W.L. & Subramaniam, V. ,Manipulation of the local density of photonic states to elucidate fluorescent protein emissionrates , PHYSICAL CHEMISTRY CHEMICAL PHYSICS, 11, 2525-2531, 2009

2.


Geen


Geen

d. Proefschriften

Geen



Mosk, A.P. , Control of light propagation in disordered photonic materials, Invited talk, 8thInternational Conference on Electrical, Transport and Optical Properties of InhomogeneousMedia (ETOPIM8), 08 jun 2009, Kreta , Griekenland

1.

Mosk, A.P. , Control of light propagation through disordered materials, Invited talk at LunchSeminar Biophotonics Laboratory California Institute of Technology, 01 aug 2009, Pasadena, USA

2.

Mosk, A.P., Opaque lenses: Using disorder to bring laser light to a focus, Invited Seminar,Electrical engineering and computer science department, University of Michigan, 08 okt2009, Ann Arbor, USA

3.

Mosk, A.P. , Universal optimal transmission of light through disordered materials, Invitedtalk, SPIE Optics and Photonics, NanoScience and Engineering, 02 aug 2009, San Diego, USA

4.

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Akbulut, D., Putten, E.G. van, Lagendijk, A. & Mosk, A.P. , Optimal concentration of light inturbid materials, workshop “Mesoscopic Physics of Waves for Imaging in Complex Media:Henri Poincare Institute, 29 okt 2009, Parijs, Frankrijk

1.

Akbulut, D., Putten, E.G. van, Lagendijk, A. & Mosk, A.P. , Optimal concentration of light inturbid materials, Applied Nanophotonics kick-off symposium, 03 dec 2009, Enschede, Nederland

2.

Birowosuto, M.D., Putten, E.G. van, Broek, J.M. van den, Lagendijk, A., Vos, W.L. & Mosk,A.P. , Fluctuation of the local density of states in random photonic nanostructures, MESA+meeting, 21 sep 2009, Enschede, Nederland

3.

Birowosuto, M.D., Vos, W.L. & Mosk, A.P., Fluctuations of decay rates of embedded emittersinside random photonic media, 7th International Symposium on Modern Optics and ItsApplications (ISMOA)., 11 aug 2009, Bandung , Indonesia

4.

Birowosuto, M.D., Vos, W.L. & Mosk, A.P., Observation of fluctuations of the local densitystates in disordered photonic media, CLEO/Europe-EQEC 2009, 17 jun 2009, Munich, Germany

5.

Birowosuto, M.D., Blum, C., Cesa, Y., Broek, J.M. van den, Mosk, A.P. & Subramaniam, V. , Photonic manipulation of the fluorescent protein emission: bright state emission rates andcolor control, 7th International Symposium on Modern Optics and Its Applications (ISMOA),11 aug 2009, Bandung , Indonesia

6.

Birowosuto, M.D., Skipetrov, S., Vos, W.L. & Mosk, A.P. , Photonic fluctuations of the localdensity states in disordered media, Mesoscopic Physics of Waves for Imaging in ComplexMedia: Henri Poincare Institute, 29 okt 2009, Parijs, Frankrijk

7.

Broek, J.M. van den, Blum, C., Mosk, A.P., Nikolaev, I., Vos, W.L. & Subramaniam, V. , Color of natural fluorescent proteins by photonic structures, Applied Nanophotonics kick-offsymposium, 03 dec 2009, Enschede, Nederland

8.

Broek, J.M. van den, Cesa, Y., Blum, C., Zijlstra, N., Tjerkstra, R.W., Mosk, A.P., Vos, W.L.& Subramaniam, V. , Measuring optical properties of fluorescent proteins by controlling thelocal density of optical states, Physics@FOM: Veldhoven, 21 jan 2009, Veldhoven, Nederland

9.

Mosk, A.P. , Control of coherent light in disordered materials, International workshop onnon-conventional imaging and focusing techniques, 05 mei 2009, Cargese, France

10.

Mosk, A.P., Blum, C., Cesa, Y., Broek, J.M. van den, Subramaniam, V. & Vos, W.L. , Controlling Fluorescent Proteins by Manipulating the Local Density of Photonic States, Frontiers in Optics (FiO)/Laser Science XXV (LS) Conference, 16 okt 2009, San Jose, USA

11.

Mosk, A.P. , Opaque lenses: Using disorder to bring laser light to a focus, OrnsteinColloquium, 10 dec 2009, Utrecht, Nederland

12.

Mosk, A.P., Opaque lenses: Using disorder to bring laser light to a focus, Invitedpresentation, general institute seminar FOM instituut voor Plasmafysica Rijnhuizen, 05 mrt2009, Nieuwegein, Nederland

13.

Mosk, A.P., Harding, P.J., Pinkse, P.W.H. & Vos, W.L. , Photonic Interactions of ResonantCesium Atoms and Opal Photonic Crystals, Frontiers in Optics (FiO)/Laser Science XXV(LS) Conference, 12 okt 2009, San Jose, USA

14.

Putten, E.G. van, Vellekoop, I.M., Birowosuto, M.D., Lagendijk, A. & Mosk, A.P., Control oflight propagation in disordered materials, Physics@FOM: Veldhoven , 20 jan 2009, VeldhovenVeldhoven, Nederland

15.

Velayudhan Nair, R., Huisman, S.R., Hartsuiker, A., Broek, J.M. van der, Tjerkstra, R.W.,Woldering, L.A., Mosk,A.P. & Vos, W.L. , Are the Bragg and Laue conditions equivalent, Applied Nanophotonics Kick-off symposium, 03 dec 2009, Enschede, Nederland

16.


Geen

d. Bekleden van posities in organisatie congressen, wetenschappelijkesamenwerkingsverbanden, adviesraden, internationale panels, redacteurschap bij

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tijdschriften

Organisatie Focus sessie "Light on the Nanoscale" Physics@FOM Veldhoven, 20091.


a. Octrooien

Geen


Mosk, A.P. Bringing light to hidden objects Invited presentation at group seminar UMCGroningen 4 maart 2009, Groningen

1.

Oriënterend contact met Philips Lighting2.


Optreden op RTV Oost A. P. Mosk and E.G. van Putten, Een onderzoeksgroep op deUniversiteit Twente is er in geslaagd om licht door materialen te krijgen die tot nog toe nietdoordringbaar waren 9 februari 2009 http://www.rtvoost.nl/nieuws/?nid=93229&cat=1

1.


Krijnsen, M., Vos, W.L., Lagendijk, A. & Mosk, A.P. (30-05-2009). Kijken door hetondoorzichtige. Twentsche courant Tubantia

1.


Zijlstra, N. (2009). Influence of the density of optical states on Förster energy transfer.Doctoraal voordracht: Universiteit Twente, Enschede (2009, mei 15 - 2009, mei 15).

1.

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outputgegevens 2009 fom-programma nr. 45 'photons in ... · "waves in complex media"...

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