Transition to the Dark Side

Slides:

Advertisements

Similar presentations

Chapter 4 Notes Part II: Microscopy (refer to pg.60-61)

Advertisements

Nick Beavers Project Manager Deconvolution from Andy Molnar Software Engineer.

Stimulated Emission LASER: Light Amplification by Stimulated Emission Radiation Spontaneous Emission  Excited States are metastable and must decay  Excited.

Single Lens Imaging System. Figure 29.8B Retina Optic nerve Fovea Optic nerve fibers Retina Photoreceptors NeuronsConeRod.

LASERS A short introduction on how “lasing” is achieved.

Dave Piston May 18, 2014 Optical Sectioning 2: Confocal Designs and “Pseudo-confocals” Outline 1.PMT detectors 2.Laser Scanning Design Features 3.Pseudo-confocals.

Lasers and Confocal. Laser Acronym: Light Amplification by Stimulated Emission of Radiation Ordinary light emission: Comes from spontaneous decay of excited.

Comparison and Implications of Three Optical Microscopy Data Acquisition Modalities James Butler Ph.D. Nikon Instruments, Inc. Widefield Fluorescence Confocal.

A Short History of Laser H. R. Khalesifard Institute for Advanced Studies in Basic Sciences

ER: YAG APPLICATION AND ITS BENEFITS BEFORE AND DURING PROSTHODONTIC TREATMENT SKOPJE, 2013.

Optics. Thomas Young ( ) Wave Optics Diffraction & Interference Christiaan Huygens ( )

Lasers and their applications in chemistry Dr Dean Venables (G16)

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

Laser scanning confocal fluorescence microscopy: an overview Liu Jie B

Introduction to Nonlinear Optics

Silicon Laser Shyam Sabanathan Chenjing Li Thannirmalai.

Introduction to Nonlinear Optics H. R. Khalesifard Institute for Advanced Studies in Basic Sciences

Study of Protein Association by Fluorescence-based Methods Kristin Michalski UWM RET Intern In association with Professor Vali Raicu.

Light Microscopy Sarah Heintz. Compound Microscope The microscope uses a lens that is close to the object and uses light to focus on the real image of.

4-1 Chap. 7 (Optical Instruments), Chap. 8 (Optical Atomic Spectroscopy) General design of optical instruments Sources of radiation Selection of wavelength.

DIC, fluorescence and confocal microscopy Department of Mechatronics GIST Yong-Gu Lee References: 1.“Fundamentals of light microscopy and electronic imaging,”

Chapter 3.8 Applications of the Quantum Model Laser Technology the first laser was produced microwave radiation and was developed by Charles Townes using.

B.SC.II PAPER-B (OPTICS and LASERS) Submitted by Dr. Sarvpreet Kaur Assistant Professor PGGCG-11, Chandigarh.

An Introduction. The first step on the road to laser was the publication of paper by Albert Einstein in 1916 –describing how atoms could interact with.

IPC Friedrich-Schiller-Universität Jena 1 Reduction of out of focus light  Excitation light excites fluorescence more or less within the whole sample.

Triplet Blinking - stable triplet state - S 1 T 1 due to solvent -halogens -transition metals Transition to the Dark Side.

By: Rob Page and Tara Trovarello

What does LASER stand for? LASER is short for Light Amplification by Stimulated Emission of Radiation Lasers are constantly around us DVDs, laser shows,

May Chuck DiMarzio, Northeastern University ECE-1466 Modern Optics Course Notes Part 7 Prof. Charles A. DiMarzio Northeastern University.

BIO 224 Intro to Molecular and Cell Biology. Microscopes are tools frequently used in cell biology Type of microscope used depends on the specimen being.

Powerpoint Templates Page 1 Powerpoint Templates Spectroscopic Microscopy.

Confocal Laser Scanning Microscopy: general considerations and techniques Simone Bossi.

LASERS. LASER is an acronym for light amplification by Stimulated Emission of radiation. When radiation interacts with matter we have three processes.

Transmission Electron Microscope Scanning Electron Microscope Light Microscope.

Optics Focus Confocal theory.

The Microscope.  Spectroscopic Microscope  Light – Compound (Bright field)  Fluorescent  Confocal  Electron- Transmission and scanning.

Electron Microscope. How do they work Instead of using light they fire a beam of electrons (which have a wavelength less than 1nm compared to light which.

Dr R.Jayaprada CONFOCAL MICROSCOPY.

Lasers The final project Lukáš Jörka 3.C. Introduction The aim of my final project: o Analyse lasers from different viewpoints o Create an overall view.

FROM IMAGES TO ANSWERS Deconvolution of Widefield and Confocal images The growing role of deconvolution NE 2007.

Laserlaser. Laser printer Laser pointer Laser: everywhere in your life.

Applications of Quantum Mechanics: Laser Technology.

LASERS By : Lucía Vicario and Tania Martín. WHAT IS IT? A laser is a device that emits light through a process of optical amplification based on the stimulated.

Lasers and Confocal.

Ultrafast Spectroscopy

Stimulated Emission Spontaneous Emission

Introduction to Nonlinear Optics

Light Amplification by Stimulated

3.3 Other types of microscopy

George Stokes ( ) Max Born ( ) E. Schroedinger ( )

8.2.2 Fiber Optic Communications

Light Amplification by Stimulated Emission of Radiation

A short introduction on how “lasing” is achieved

MEDICAL LASER SYSTEMS Assist Prof. Dr. Lutfi Ghulam Awazli

Origin of The Electromagnetic (EM) Waves

Scopes and Stuff II Scopes and Stuff Scopes and Stuff III 5 pt 5 pt

Types of Microscopes Light Electron Bright field Dark-field Scanning

والصلاة والسلام على سيدنا ونبينا محمد صل الله (الليزر) فكرة عمل الليزر

LIGHT MICROSCOPY variations

Types of Microscopes Light Electron Bright field Dark-field Scanning

More science...yipee! BY WILLIAM DAVIS.

LASERS By Swapan Das.

FLUORESCENCE MICROSCOPY

Chapter 6 A Tour of the Cell

A Brief Account of LASER & Its Application

Rayat Shikshan Sanstha’s S. M. Joshi College, Hadapsar

Presentation transcript:

Transition to the Dark Side Triplet Blinking stable triplet state S1 T1 due to solvent halogens transition metals

Collision with solutes Resonance energy transfer Quenching Collision with solutes Resonance energy transfer Energy transferred to non-fluorescent solute molecule

Fluorescence Resonance Energy Transfer

Oxygen radicals are highly reactive & cytotoxic Death of a Fluor Photobleaching T1 is highly reactive O2 likes T1 electrons Oxygen radicals are highly reactive & cytotoxic O2 or other solute New compound (disrupted conjugation)

Reflected Light (Epifluorescence) Microscopy

Transmission Fluorescence Microscopy

AOTF

Widefield Fluorescence Microscopy

Widefield Fluorescence Microscopy Confocal Fluorescence Microscopy

Marvin Minsky’s Confocal Microscope Patent application submitted in 1957 while Minsky was a post-doc at Harvard

Marvin Minsky’s Confocal Microscope Epi-illuminated design eliminated need for a condenser Also incorporated the concept of stage scanning

Confocal Microscope Invented in 50s Not practical until availability of low cost lasers and high speed computers First commercial devices available in the 80s Uses pinhole to limit collected light to that which is “confocal” (i.e., shares conjugates planes of focus) with the object plane

Zeiss LSM510

Marvin Minsky’s Confocal Microscope Reduced blurring of image by light scattering Increased effective resolution Improved signal-to-noise ratio XY-scan possible across a wide area of the specimen Inclusion of Z-scan possibility Electronic adjustment of magnification Possibility of quantitative measurements of optical properties of the specimen

Nipkow Disk Invented in 1884 by Paul Nipkow,a contemporary of Abbe. Central element of an early incarnation of the television.

Tandem Scanning Optical Scopes

Tandem Scanning Optical Scopes

Light Amplification by Stimulated Emission of Radiation Albert Einstein stimulated emission possible 1950s Charles Townes built first “MASER” Gordon Gould coined term LASER 1960 Theodore Maiman built first LASER (ruby)

Stable LASER output requires establishment and maintenance of a “population inversion” of excitable electrons. Must “pump” the medium with either electrical or photonic energy

~ 10,000 - 40,000 hours

Laser Lines 1152

Alignment