Science, 2010, 330, 353-356 Room-Temperature Detection of a Single Molecule’s Absorption by Photothermal Contrast A. Gaiduk, M. Yorulmaz, P. V. Ruijgrok,

Slides:

Advertisements

Similar presentations

Gravitational Wave Astronomy Dr. Giles Hammond Institute for Gravitational Research SUPA, University of Glasgow Universität Jena, August 2010.

Advertisements

ILIAS 5-6/11/2004 WG T2 Task T2 (WG 11) AIM: exact definition (theoretical and experimental) of photo-thermal noise PARTICIPANTS INFN (AURIGA group; also.

Zero-Phonon Line: transition without creation or destruction of phonons Phonon Wing: at T = 0 K, creation of one or more phonons 7. Optical Spectroscopy.

Big Question: We can see rafts in Model Membranes (GUVs or Supported Lipid Bilayers, LM), but how to study in cells? Do rafts really exist in cells? Are.

Characteristic evaluation of new laser crystals Rui Zhang ACCL Division V, RF-Gun Group Feb 20, 2015 SuperKEKB Injector Laser RF Gun Review.

Lecture 3 Kinetics of electronically excited states

Short pulses in optical microscopy Ivan Scheblykin, Chemical Physics, LU Outline: Introduction to traditional optical microscopy based on single photon.

Single Molecule Fluorescence from Organic Dyes in Thin Polymer Films Robin Smith and Carl Grossman, Swarthmore College March 5, 2003.

Photothermal Heterodyne Imaging of Individual Nonfluorescent Nanoclusters and Nanocrystals Stephane Berciaud, Laurent Cognet, Gerhard A. Blab, and Brahim.

Surface-Enhanced Raman Scattering (SERS)

Optical properties of single CdSe/ZnS colloidal QDs on a glass cover slip and gold colloid surface C. T. Yuan, W. C. Chou, Y. N. Chen, D. S. Chuu.

Coherent State Preparation of a Single Molecule

Single-ion Quantum Lock-in Amplifier

STED: Nanoscale 3D Optical Imaging Digvijay Raorane & Arun Majumdar Department of Mechanical Engineering Department of Materials Science University of.

Pump-Probe Spectroscopy Chelsey Dorow Physics 211a.

An optomechanical transducer for the AURIGA “bar” gw detector cryogenic optics towards the quantum limit: high finesse cavities, fibers, piezo actuators,

Photophysical Properties of CdSe/ZnS Quantum Dots Embedded in Polymer Films and Solubilized in Toluene Final Presentation Jamie Golden CHEM /30/10.

Gilad Haran Chemical Physics Department Weizmann Institute of Science Charge-transfer effects in Raman Scattering of Individual Molecules FRISNO, EIN-BOKEK,

Thermal Infrared Multispectral Mapper Computer Model of the Experiment It is a model of the EXPERIMENT, it is not a model of the DEVICE Special models.

CNRS LKB – Task T1 Current status of the experiment on optomechanical coupling Sensitivity: 5.10  20 m.Hz  1/2   New high-finesse, high-power cavity.

IPC Friedrich-Schiller-Universität Jena 1 6. Fluorescence Spectroscopy.

Photoassociation Spectroscopy of Ultracold Molecules Liantuan XIAO State Key Laboratory of Quantum Optics and Quantum Optics Devices, Institute of Laser.

Stochastic Optical Reconstruction Microscopy (STORM)

Micro-optical studies of optical properties and electronic states of ridge quantum wire lasers Presented at Department of Physics, Graduate.

Progress towards laser cooling strontium atoms on the intercombination transition Danielle Boddy Durham University – Atomic & Molecular Physics group.

Epi-illumination is form of Kohler Illumination:

Single-Molecule Fluorescence Blinking and Ultrafast Dynamics in Semiconductor and Metal Nanomaterials C. T. Yuan, P. T. Tai, P. Yu, D. H. Lee, H. C. Ko,

Single Molecule Spectroscopy (SMS) 2010/6/9 Miyasaka Lab. Iida Atsushi.

Abstract Laser scanning fluorescence confocal microscope (LSFCM) imaging is an extensively used modality in biological research [1]. However, these images.

Diffusion on surfaces Surface Science Course 2006 Achim Schnadt TR Linderoth et al. Phys. Rev. Lett. 82 (1999) 1494 Aarhus Universitet.

Abstract Fluorescence is the basis of several microscope image modalities extensively used in biological and medical research, e.g., such as Laser Scanning.

Pursuing the initial stages of crystal growth using dynamic light scattering (DLS) and fluorescence correlation spectroscopy (FCS) Takashi Sugiyama Miyasaka.

Fluorescence Correlation Spectroscopy

Experimental investigation of dynamic Photothermal Effect

Quiz (2/20/08, Chpt 3, ECB) 1. A chemical process where there is a net gain of electrons is called _______________. A chemical process where there is a.

Another Quenching Method -Static Quenching-

Spatial distributions in a cold strontium Rydberg gas Graham Lochead.

Fluorescence spectroscopy, Einstein’s coefficients Consider a molecule with two energy levels S a and S b The rate of transition.

Molecular Spectroscopy OSU June TRANSIENT ABSORPTION AND TIME-RESOLVED FLUORESCENCE STUDIES OF SOLVATED RUTHENIUM DI-BIPYRIDINE PSEUDO-HALIDE.

Development of a cavity ringdown spectrometer for measuring electronic states of Be clusters JACOB STEWART, MICHAEL SULLIVAN, MICHAEL HEAVEN DEPARTMENT.

Spatial distributions in a cold strontium Rydberg gas Graham Lochead.

Task T2 – Measurement of photo-elastic noise Goals: - observation of photo-elastic effects - dependence with temperature down to a few K - dependence with.

Development of a Fast Ion Beam Spectrometer for Molecular Ion Spectroscopy Departments of Chemistry and Astronomy University of Illinois at Urbana-Champaign.

Date of download: 7/3/2016 Copyright © 2016 SPIE. All rights reserved. Illustration of the schematic for the photon budget analysis. (a) Excitation path.

1 Room temperature slow light with 27 GHz bandwidth in semiconductor quantum dots Giovanni Piredda, Aaron Schweinsberg, and Robert W. Boyd The Institute.

Ultrafast Excited State Raman Spectroscopy

Physics 598BP Today: Fluorescence What is it? Why is it good?

Metallurgha.ir1. Lecture 5 Advanced Topics II Signal, Noise and Bandwidth. Fundamental Limitations of force measurement metallurgha.ir2.

 The electron electric dipole moment (eEDM) is aligned with the spin and interacts with the giant (~84 GV/cm) effective internal electric field of the.

Saturation Roi Levy. Motivation To show the deference between linear and non linear spectroscopy To understand how saturation spectroscopy is been applied.

National Institute of Standards and Technology

Current and future ground-based gravitational-wave detectors

Surface, interface and bulk sensitive X-ray absorption spectroscopy probed by total electron yield in liquid cell Daniela Schön, Jie Xiao, Ronny Golnak,

SEMINAR 1. Title : Nanoscale Optical Spectroscopy

Transient Absorption (Courtesy of Kenneth Hanson, Florida University): The technique applied to molecular dynamics Source hn Sample Detector.

Two-Photon Absorption Spectroscopy of Rubidium

OPTICAL MONITORING OF PHOTOSENSITIZER DIFFUSION INTO TISSUE

New Results on Photothermal Effect: Size and Coating Effect

from W. Demtröder “Molecular Physics”

Synchrotron techniques in bio-physics

Complex Nanophotonics

Charge-transfer effects in Raman Scattering of Individual Molecules

Entangled Photons from Quantum Dots

NV centers in diamond: from quantum coherence to nanoscale MRI

Francesca Pennacchietti, Travis J. Gould, Samuel T. Hess

from W. Demtröder “Molecular Physics”

Norm Moulton LPS 15 October, 1999

Imaging techniques for next generation plant cell biology.

Photobleach of Au-nanorod under two photon excitation

by A. Sipahigil, R. E. Evans, D. D. Sukachev, M. J. Burek, J

Presentation transcript:

Science, 2010, 330, 353-356 Room-Temperature Detection of a Single Molecule’s Absorption by Photothermal Contrast A. Gaiduk, M. Yorulmaz, P. V. Ruijgrok, M. Orrit* Institute of Physics, Leiden University, Netherlands

Single-molecule Optical Detection ☆ Fluorescence E. Betzig et al., Science, 262, 1422. (1993) Intensity, Spectrum, Lifetime, Real-Time Imaging, …… Physics Chemistry Biology environmental intersystem crossing fluctuation spectral diffusion fluorescence switching enzymatic states quantum optics… photochemistry…. folding…. Very convenient technique Problems: Necessity of fluorescent label, blinking, fast photobleaching

Single-molecule Optical Detection ☆ Absorption Q: Is it impossible to probe the single molecule’s absorption at room-temperature ? A: No!, but challenging….. because… Very low absorption cross section of single molecules at r.t. (~ 10-16 cm2) (2) High background noise in a direct extinction measurement (based on the number of missing photons) ⇒It is very difficult to discriminate true absorption signal from scattering W. E. Moerner et al., Phys. Rev. Lett., 62, 2535. (1989) Limited to the cryogenic temperature experiments (~ 1.4 K)

Label-free Optical Microscopy ☆ Stimulated Emission X. S. Xie et al., Nature, 461, 1105. (2009) ☆ Thermal Lens Microscopy T. Kitamori et al., Anal. Chem., 73, 2112. (2001)

Photothermal Lens Effect

Photothermal Imaging B. Louis, M. Orrit et al., Science, 297, 1160. (2002) B. Louis et al., Phys. Rev. Lett., 93, 257402. (2004) B. Louis et al., Phys. Rev. B, 73 045424. (2006) M. Orrit et al., Chem. Sci., 1, 343. (2010)

Experimental Setup

Photothermal Images of Gold Nanospheres

Photothermal Images of Gold Nanospheres Key points to achieve single-molecule sensitivity Fast modulation of the pomp (heating) beam (1 MHz) 　　　⇒Elimination of mechanical, electronic, and laser noise The change of surrounding medium from to water to glycerol The use of relatively high probe power 　　 ⇒Increase of Photothermal signals and reduction of photon noise Detectable dissipated powers can be decreased as low as 3 nW with SNR (signal to noise ratio) of 8 in a 10 ms integration time

Calculation of the Dissipated Power

Samples

Photothermal Images of BHQ1-10T-BHQ1