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Laser rentgenowski na swobodnych elektronach-nowe źródła promieniowania X w DESY-HASYLAB
Marek Lankosz
Wydział Fizyki i Informatyki Stosowanej
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Light sources for research with photons at DESY Source: DESY, Hamburg
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Source: DESY, Hamburg
Total project construction cost - 1,081.6 M€
1012 photons/bunch
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PETRA and HERA accelerators
Petra III Facilities
Source: DESY, Hamburg
a total investment of 225 million €
2009
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The development of X-ray radiation sources
Source: DESY, Hamburg
acceleration
electron orbit
2/γ
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Average and Peak Brilliance in Comparison
Source: DESY, Hamburg
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Electron beam X-ray radiation Magnetic structures
Free Electron Laser
Undulator
Wiggler
Bending magnet
Ne
NeNm
NeNm2
Ne2Nm
2
Intensity of photon flux
Source: DESY, Hamburg
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Source: DESY, Hamburg
The advantages of XFEL •ultra-high brilliance and photon flux intensity•high collimation•wide energy/wavelength tunability (up to hard X-rays)• specific polarization•spatial coherence (transverse and longitudinal)•pulsed time structure
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Free-electron laser and conventional laser
LASER- Light Amplification by Stimulated Emission of Radiation
XFEL- X-Ray Free Electron Laser based on SASE- Self-Amplified Spontaneous Emission
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Principle of a conventional quantum laser where the electrons are bound to atomic, molecular or solid-state energy levels (”bound-electron laser”).
Source: DESY, Hamburg
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Plasma X-ray laser
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Schematic representation of undulator radiation.
Source: DESY, Hamburg
The FEL is not, strictly speaking, a laser, i.e. a device based on quantum-mechanical stimulated emission, and its operation is completely described within the framework of classical physics. The FEL is a system consisting of a relativistic electron beam and a radiation field interacting with each other while propagating through an undulator.
XFEL_SASEFEL.mov
XFEL_Linac_Accelerator.mov
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Free-electron laser configurations: oscillator (top), seeded amplifier (middle), and SASE FEL (bottom).
Source: DESY, Hamburg
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Principle of a free-electron laser: (a) For visible or infrared light (b) In the ultraviolet and X-ray region one can apply the mechanism of self-amplified spontaneous emission
Source: DESY, Hamburg
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The self-seeding mechanism:
Source: DESY, Hamburg
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+−= 2
2
421
γKcvz
+=
21
2
2
2
Kut γ
λλ
12 0
0 ≈=cm
eBK u
πλ
Source: DESY, Hamburg
Wavelength of undulator radiation
v<c - electron velocity
vz - electron velocity component along the z axisγ - Lorentz factor
λt- wavelength of undulator radiation in the forward directionK- undulator parameterλu-undulator period
B0- peak magnetic field in the undulator
Relativistic Doppler shift
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00 WW
mm ==γ
mu µγ
λλ 30==∗
for λu= 30 mm i γ = 1000
nmut 15
22 2 ==≈∗
γλ
γλλ
Source: DESY, Hamburg
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Condition for sustained energy transfer from electron to light wave in an undulator: The light wave has to slip forward by per half-period of the electron trajectory.
Source: DESY, Hamburg
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)cos(),( 0 tzkEtzE ttx ω−=
ttt ckwith λπω /2/ ==
20cmW γ=
)()( tEtveFvdtdW
xx−=•=
Source: DESY, Hamburg
Plane electromagnetic wave
The time derivative of the electron energy
is
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+=
21
2
2
2
Kut γ
λλ
20cmWW rt γ≡>
+=
21
2
2K
t
ur λ
λγ
Source: DESY, Hamburg
To achieve light amplification the electron energy must exceed the resonance energy
The resonant Lorentz factor is
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The exponential growth of the FEL pulse energy E as a function of the length z traveled in the undulator.
Source: DESY, Hamburg
Average energy in the radiation pulse against magnetic undulator length for SASE 3 operating at 0.4 nm
The principle of the free-electron laser (XFELinfo).url
microbunching.mov
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microbunching
Numerical simulation of microbunching
microbunching.mov
Source: DESY, Hamburg
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ggin LzforLzPzP 2)/2exp(9
)( ≥=
The power gain
Lg- field gain lenghtPin- effective input power
π ρλ
4u
gL =
ρ-saturation efficiencyLsat- saturation lenght
gsat LL •= 10
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XFEL_Tunnelverlauf02XFEL_Tunnelverlauf02
XFEL_Tunnelverlauf02XFEL_Tunnelverlauf02
Location of the European XFEL
Source: DESY, Hamburg
Electron energy – 17.5 GeVBunch peak current- 5 kAPeak power- 100 TWConversion efficiency-0.1%Peak power of X-rays- multiGWX-ray intensities- 1018 W/cm2
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Source: DESY, Hamburg
Cut through the electron source of FLASH.
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Principle of longitudinal electron bunch compression.
Source: DESY, Hamburg
Requirements on the drive beamof an X-ray FEL•High peak current•Very low emittance•Small energy spread
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Source: DESY, Hamburg
Electron bunch time pattern with 10 Hz repetition rate and up to 3,000 bunches in a 0.6 ms long bunch train. The separation of electron bunches within a train is 200 ns for full loading. The duration of electron bunches is ~200 fs and the non-linear FEL process reduces the duration of the photon pulses to ~100 fs.
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Schematic layout of the planned X-ray laser laboratory in a top view. Black and red lines indicate electron and photon beam lines, respectively. The undulators are marked in blue and violet.
Source: DESY, Hamburg
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Scientific applications of XFEL
radiation
•Femtosecond chemistry
• Investigation of single molecules
• X-ray microscopy
• Plasma physics
• Coherent scattering experiments
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"Filming" chemical reactions using ultra-fast lasers. The brilliance of one single laser flash is so high that it can generate images
of reacting molecules with atomic resolution
Femtochemistry
Source: DESY, Hamburg
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X-ray microscopy
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Structural biology
Ribosomes are large molecular complexes that act as "protein factories" and occur in every cell. The X-ray laser opens up completely new opportunities to decipher such biological structures with atomic resolution without the need for the extra step of tediously growing them into crystals first.
Ribosomes
The X-ray laser opens up completely new opportunities to decipher biological molecules with atomic resolution without the need for the extra step of growing crystals. The X-ray laser flashes are so intense that they can be used to create a high-resolution image of a single molecular complex. The flash duration is shorter than 100 femtoseconds and is thus short enough to produce an image before the sample is destroyed by the intense X-rays.
Source: DESY, Hamburg
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Schematic diagram of the single-particle diffraction imaging experiment.
Diffraction imagingSource: DESY, Hamburg
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Diffraction of proteins
Planar section through the centre of the molecular transform of a small protein molecule (lysozyme, left) and of a larger virus capsid (tomato bushy stunt virus,right)
Source: DESY, Hamburg
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Biomolecules are destroyed by intense X-ray radiation: they "explode". The illustration shows a
simulation of this process. In order to obtain a usable image of the biomolecule, the image must be
recorded very quickly before the sample is destroyed.
Source: DESY, Hamburg
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A chemical reaction is triggered by a laser flash: The molecules are excited to a more energetic state, after which they "drop" back to their less energetic equilibrium state. A second laser pulse is then sent at varying intervals (t) after the first one to take instantaneous snapshots of the changes that have
occurred in the molecule.
XFEL_Femtochemie02_ENXFEL_Femtochemie02_EN
Femtochemistry
Source: DESY, Hamburg
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Plasma physics
Experimental arrangement for spectroscopy experiments. The burial of a microdot in a matrix helps to better define the plasma conditions at the time and plac of excitation by the XFEL pump. Time- and space-resolved spectroscopy will be used todiagnose the emission. Source: DESY, Hamburg
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Source: DESY, Hamburg
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Source: DESY, Hamburg
PETRA III
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PETRA III
Positron energy 6 GeV14 beamlines with 30 experimental stationsX-ray spectral range from 0.2 to 300 keV, t=1ps
Source: DESY, Hamburg