E-LASERS & AMPLIFIERS

Nobel Prize to Agostini-Krausz-L'Huillier

Experimental Methods that Generate Attosecond Pulses of Light for the Study of Electron Dynamics in Matter

Click: NOBEL-PRIZE-2023/

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All the fifty years of conscious brooding have brought me no closer to answer the question:

“ What are Light Quanta ?”

Of course today every rascal thinks he knows the answer, but he is deluding himself.

--------------Albert Einstein

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For Typical Use in Our Experiments

Lasers and Amplifiers

Solid-State Nonlinear Optical Crystals

Photo-Detectors

Electronics

Data-Acquisition and Data-Analysis

Continuum's High Energy, Injection-Seeded, Repetatively

Pulsed, and Frequency Doubled Nd:YAG Laser

Coherent's Ti:Sapphire Regenerative Pulsed Amplifier

Question: What is Laser Physics ? What is Nonlinear Optics (NLO) ?

Answer: Study of light-matter interaction is called laser physics. During this light-matter interaction when intensity in the light beam is large enough so that its electric field become comparable to the existing atomic field in the medium, the light-matter interaction become nonlinear i.e. polarization induced in the medium scales nonlinearly with the applied electric field. Branch of laser physics, which deals with light-matter interaction in the nonlinear regime, is called nonlinear optics. Nonlinear optical processes are characterized by frequency mixing and are generally practiced with high peak power pulsed lasers. Today, nonlinear optics is the most productive area within the entire field of laser physics !

M. M. Fejer, Nonlinear Optical Frequency Conversion

Physics Today pp. 25 May 1994

Download: (*Nonlinear-Frequency-Conversion) pdf

Tunable Solid-State Laser

Spectroscopic and Laser Characteristics of Ti:Al2O

P. F. Moulton, JOSA B 3 (1), 125 (1986)

DOWNLOAD: (*Ti:Sapphire) pdf

Above Figure Shows Commercially Available Optical Parametric Oscillator (OPO)

Chapter 9: Optical Parametric Oscillator

Robert L. Byer

Quantum Electronics eds. H. Rabin and C. L. Tang (1975)

Vol. 1 Part B Nonlinear Optics

DOWNLOAD: (*Review-OPO) Pdf

Question: How Laser Physics Experiments Work ?

Answer: To Look inside the Laser Physics Laboratories:

Click- (LASER-LABORATORY)

Question: How to win a Nobel Prize ?

Answer: Switch your research to Laser Physics. Recently, highest number of Nobel Prizes are being awarded to those researchers who work with Lasers.

From 1960 to 2023 !

Nobel Prize for year 1964: For Quantum Electronics / Laser-Maser Principle

C. H. Townes, N. G. Basov, and A. M. Prokhorov

CLICK- (NOBLE-PRIZE-1964)

Nobel Prize for year 2018: For Method of Generating High-Intensity Ultra-Short Optical Pulses

G. Mourou and D. Strickland

CLICK- (NOBEL-PRIZE-2018)

Nobel Prize for year 2023: For Experimental Methods that Generate Attosecond Pulses of Light for the

Study of Electron Dynamics in Matter.

P. Agostini, F. Krausz, and A. L' Huillier

Click: NOBEL-PRIZE-2023/

For other Nobel Prizes Associated with Lasers:-2023

Click - (www.osa.org/en-us/about_osa/osa_nobel_laureates)

Question: If you need to know anything about Laser Physics and Technology then where you should go to look for ?

Answer: First Click on following website: (www.rp-photonics.com/encyclopedia)

R. Paschotta, Encyclopedia of Laser Physics and Technology (Wiley, 2008).

Question: Where is highest power Laser ?

Answer: The Highest Power Laser in the World

Petawatt Laser Probes Nature at Texas University

Physics Today 61(10), 27 (2008).

Download:(*University-Texas-(Austin)-Laser) pdf

Typical Lasers and Amplifiers Used in our Experiments

High Power Pulsed Nd:YAG Laser

Download: (*Nd:YAG-LASER-1) pdf

Download: (*Nd:YAG-LASER-2) pdf

Ultrafast Laser

Download: (Ultrafast-Laser-1) pdf

Download: (*Ultrafast-Laser-2) pdf

Diode Pumped Solid State (DPSS) Laser

Download: (*DPSS-Laser-1) pdf

Download: (*DPSS-Laser-2) pdf

Tunable Semiconductor Diode Lasers

Download: (*Diode-Laser) pdf

Tunable cw Ti:Sapphire Ring Laser

Download: (*Ring-Laser-1) pdf

Download: (*Ring-Laser-2) pdf

Tunable Pulsed Dye Laser

Download: (*Pulsed-Dye-Laser-1) pdf

Download: (*Pulsed-Dye-Laser-2) pdf

Ytterbium (Yb) Fiber Laser

Download: (*Yb-Fiber-Laser) pdf

Carbon Dioxide Laser

Download: (*CO2-Laser) pdf

Above Figure Shows Commercially Available Nonlinear Solid-State Crystals

Solid-State Nonlinear Optical Crystals

Lithium Triborate (LBO)

Beta-Barium Borate (BBO)

Potassium Titanyl Phosphate (PPKTP)

Lithium Niobate(PPLN)

Potassium Titanyl Arsenate (PPKTA)

Lithium Tantalate (PPLT)

Photonic Crystal

PHOTO-DETECTOR

(For Detection of Entangled Photons)

Single-Photon Detectors for Optical Quantum Information Applications

R. H. Hadfield, Nature Photonics 3, 696 (2009)

Download:(*Detector-QIS) pdf

Above Figure Shows Single-Photon Counting Module

Such detectors, which are based on Avalanche Multiplication, have single photon sensitivity i.e. can detect optical radiation with energy as low as energy of a single photon.

Above Figure Shows Output of a Photon Number Resolving (PNR) Detector

Such Photon Number Resolving (PNR) detectors can count number of photons in optical pulse incident into the detector. These detectors are used with strongly attenuated femtosecond optical pulses required in some quantum information experiments. Such detectors are also used for some advanced quantum information applications such as generation of Complex Multi-Photon Entangled States, development of photonic Quantum Repeaters, and development of photonic Quantum internet.

Above Figure Shows Electronic Pulse Generator

Above Figure Shows Electronic Pulses

Above Figure Shows A Tektronix Storage Oscilloscope

Above Figure shows Computer Aided Measurement and Control (CAMAC) for Data Acquisition

Above Figure shows Data Analysis for Experiment

END