the generation of ultrashort laser pulses the importance of bandwidth more than just a light bulb...
TRANSCRIPT
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The Generation of Ultrashort Laser Pulses
The importance of bandwidth
More than just a light bulb
Laser modes and mode-locking
Making shorter and shorter pulses
Pulse-pumpingQ-switching and distributed-feedback lasersPassive mode-locking and the saturable absorberKerr-lensing and Ti:SapphireActive mode-lockingOther mode-locking techniques
Limiting factors
Commercial lasers
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P3 LAS 2010 Femtosekundové lasery
Slajdy : Prof Rick TREBINO,
Kurz Utrafast optics, Georgia Tech, USA
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But first: the progress has been amazing!
YEAR
Nd:glass
S-P DyeDye
CW Dye
Nd:YAG
Diode
Nd:YLF
Cr:YAG
Cr:LiS(C)AFEr:fiber
Cr:forsterite
Ti:sapphire
CPM
w/Compression
ColorCenter
1965 1970 1975 1980 1985 1990 1995
Dye
2000
SH
OR
TE
ST
PU
LS
E D
UR
AT
ION
10ps
1ps
100fs
10fs
2005
Nd:fiber
The shortest pulse vs. year (for different media)
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Continuous vs. ultrashort pulses of light
A constant and a delta-function are a Fourier-Transform pair.
Continuous beam:
Ultrashort pulse:
Irradiance vs. time Spectrum
time
time
frequency
frequency
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Long vs. short pulses of light
The uncertainty principle says that the product of the temporal and spectral pulse widths is greater than ~1.
Long pulse
Short pulse
Irradiance vs. time Spectrum
time
time
frequency
frequency
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For many years, dyes have been the broadband media that have generated ultrashort laser pulses.
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Ultrafast solid-state laser media have recently replaced dyes in most labs.
Solid-state laser media have broad bandwidths and are convenient.
Lase
r po
wer
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But a light bulb is also broadband.
What exactly is required to make an ultrashort pulse?
Answer: A Mode-locked Laser
Okay, what’s a laser, what are modes, and what does it mean to lock them?
Light bulbs, lasers, and ultrashort pulses
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Generating short pulses = mode-locking
Locking the phases of the laser modes yields an ultrashort pulse.
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Locked modes
Intensities
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Numerical simulation of mode-locking
Ultrafast lasers often have thousands of modes.
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A generic ultrashort-pulse laser
A generic ultrafast laser has a broadband gain medium, a pulse-shortening device, and two or more mirrors:
Many pulse-shortening devices have been proposed and used.
Mode-locker
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Passive mode-locking: the saturable absorber
(I) 0
1 I Isat
Like a sponge, an absorbing medium can only absorb so much. High-intensity spikes burn through; low-intensity light is absorbed.
0 1
1 / sat
N N
N
I I
0 N
For a two-level system
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The effect of a saturable absorber
First, imagine raster-scanning the pulse vs. time like this:
After many round trips, even a slightly saturable absorber can yield a very short pulse.
Short time (fs)
Inte
nsi
ty
Round trips (k)
k = 1
k = 7
Notice that the weak pulses are suppressed, and the strong pulse shortens and is amplified.
k = 2k = 3
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Passive mode-locking: the saturable absorber
High-intensity spikes (i.e., short pulses) see
less loss and hence can lase while low-
intensity backgrounds (i.e., long pulses) won’t.
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Passive mode-locking with a slow saturable absorber
What if the absorber responds slowly (more slowly than the pulse)?
Then only the leading edge will experience pulse shortening.
This is the most common situation, unless the pulse is many ps long.
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Gain saturation shortens the pulse trailing edge.
The intense spike uses up the laser gain-medium energy, reducing the gain available for the trailing edge of the pulse (and for later pulses).
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Saturable gain and loss
The combination of saturable absorption
and saturable gain yields short pulses
even when the absorber is slower
than the pulse.
Lasers lase when the gain exceeds
the loss.
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The Passively Mode-locked Dye Laser
Passively mode-locked dye lasers yield pulses as short as a few hundred fs.
They’re limited by our ability to saturate the absorber.
Pump beam
Gain medium
Saturable absorber
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Some common dyes and their corresponding saturable absorbers
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Colliding pulses have a higher peak intensity.
Longitudinal position, z
Inte
nsity
Single pulse
Two pulses colliding
And higher intensity in the saturable absorber is what CPM lasers require.
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The colliding-pulse mode-locked (CPM) laser
A Sagnac interferometer is ideal for creating colliding pulses.
CPM dye lasers produce even shorter pulses: ~30 fs.
Beam-splitter
Gain medium
Saturable absorber
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A lens and a lens
xA lens is a lens because the phase delay seen by a beam varies with x:
(x) = n k L(x)
L(x)
Now what if L is constant, but n varies with x:
(x) = n(x) k L
n(x)x
In both cases, a quadratic variation of the phase with x yields a lens.
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Kerr-lens mode-locking
A medium’s refractive index depends on the intensity.
n(I) = n0 + n2I
If the pulse is more intense in the center, it induces a lens.
Placing an aperture at the focus favors a short pulse.
Kerr-lensing is the mode-locking mechanism of the Ti:Sapphire laser.
Losses are too high for a low-intensity cw mode to lase, but not for high-intensity fs pulse.
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Kerr-lensing is a type of saturable absorber.
If a pulse experiences additional focusing due to high intensity and the nonlinear refractive index, and we align the laser for this extra focusing, then a high-intensity beam will have better overlap with the gain medium.
High-intensity pulse
Low-intensity pulse
Ti:Sapph
Mirror
Additional focusing optics can arrange for perfect overlap of the high-intensity beam back in the Ti:Sapphire crystal.
But not the low-intensity beam!
This is a type of saturable absorption.
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Modeling Kerr-lens mode-locking
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Titanium Sapphire (Ti:Sapphire)
oxygenaluminum
Al2O3 lattice
Ti:Sapphire is currently the workhorse laser of the ultrafast community, emitting pulses as short as a few fs and average power in excess of a Watt.
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Titanium Sapphire
It can be pumped with a (continuous) Argon laser (~450-515 nm) or a doubled-Nd laser (~532 nm).
Upper level lifetime: 3.2 sec
Ti:Sapphire lases from ~700 nm to ~1000 nm.
Absorption and emission spectra of Ti:Sapphire
(nm)
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Mechanisms that limit pulse shortening
Gain narrowing:
G() = exp(-a2), then after N passes, the spectrum will narrow by GN() = exp(-Na2), which is narrower by N1/2
Group-velocity dispersion:
GVD spreads the pulse in time. And everything has GVD…
All fs lasers incorporate dispersion-compensating components.
We’ll spend several lectures discussing GVD!!
Etalon effects:
This yields multiple pulses, spreading the energy over time, weakening the pulses.
The universe conspires to lengthen pulses.
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The Ti:Sapphire laser including dispersion compensation
Adding two prisms compensates for dispersion in the Ti:Sapphire crystal and mirrors.
This is currently the workhorse laser of the ultrafast optics community.
cw pump beamTi:Sapphire gain medium
Prism dispersion compensator
Slit for tuning
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Commercial fs lasers
Ti:Sapphire
Coherent:
Mira (<35 fs pulse length, 1 W ave power),
Chameleon (Hands-free, ~100 fs pulse length),
Spectra-Physics:
Tsunami (<35 fs pulse length, 1 W ave power)
Mai Tai (Hands-free, ~100 fs pulse length)
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Very-short-pulse commercial fs lasers
Ti:Sapphire
KM Labs
< 20 fs and < $20K
Femtolasers
As short as 8 fs!
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Commercial fs lasers (cont’d)
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Ytterbium Tungstate (Yb:KGW)
Model t-Pulse 20 t-Pulse 100 t-Pulse 200
Pulse energy (nJ) 20 100 200
Average power (W) 1 1 2
Repetition rate (MHz) 50 10 10
Ytterbium doped laser materials can be directly diode-pumped, eliminating the need for an intermediate (green) pump laser used in Ti:Sapphire lasers.
They also offer other attractive properties, such as a very high thermal efficiency and high average power.
Amplitude Systemes
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Active mode-locking
Any amplitude modulator can preferentially induce losses for times other than that of the intended pulse peak. This produces short pulses.
It can be used to start a Ti:Sapphire laser mode-locking.
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Gain switching
Modulating the gain rapidly is essentially the same as active mode-locking.
This method is a common one for mode-locking semiconductor lasers.
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Synchronous pumping
Pumping the gain medium with a train of already short pulses yields a train of even shorter pulses.
Trains of 60 ps pulses from a Nd:YAG laser can yield <1 ps pulses from a sync-pumped dye laser.
Pump beam
Gain medium
Saturable absorber
Short pulses (ps)
The laser round-trip time must
precisely match that of the train of
pump pulses!
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Hybrid mode-locking
Hybrid mode-locking is any type of mode-locking incorporating two or more techniques simultaneously.
Sync-pumping and passive mode-locking
Active and passive mode-locking
However, using two lousy methods together doesn’t really work all that much better than one good method.
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Diode lasers use hybrid mode-locking
Haneda, et al, UP 2004
Autocorrelation Spectrum
Autocorrelation Spectrum
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Additive-pulse mode-locking
Nonlinear effects in an external cavity can yield a phase-distorted pulse, which can be combined in phase with the pulse in the main cavity, yielding cancellation in the wings, and hence pulse-shortening.
Early fiber lasers used this mechanism.
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The soliton laser
Nonlinear-optical effects can compensate for dispersion, yielding a soliton, which can be very short and remain very short, despite dispersion and nonlinear-optical effects.
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Commercial fs fiber lasers
Erbium
Menlo Systems
150 fs; 150 mW
IMRA America
Frequency-doubled
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Pump lasers for ultrafast lasers
Previously, only the Argon Ion laser was available, but much more stable intracavity-frequency-doubled solid-state lasers are now available.