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03 63 08 23 89
Micro- and nano-machining of transparent materials using Bessel beams
Jassem SAFIOUI, Gwenn ULLIAC, Pierre-Ambroise LACOURT and François COURVOISIER
June 2015 Femtosecond Laser
How laser finds applications in industry?
June 2015 Femtosecond Laser 2
Telecommunication
Aeronautical
Medicine Security
3D optical circuits
Fibres cutting and welding
Counterfeit
Identity documents
Lab on chip
Opto-fluidic circuit
Surface texturing
Fuselage Laser applications
How laser finds applications in industry?
June 2015 Femtosecond Laser 3
Telecommunication
Aeronautical
Medicine Security
3D optical circuit
Fibers cutting and welding
Counterfeit
Identity documents
Lab on chip
Opto-fluidic circuit
Surface texturing
Fuselage Laser applications
An important part is occupied by transparent
materials
Many ways to machine transparent materials
4
Si
LN
Dicing & thinning Dry and wet etching Laser machining
June 2015 Femtosecond Laser
Micro-structuration of transparent materials
5
Si
LN
Dicing & thinning
• Thinning until 1µm
• Optical roughness quality
• Aspect ratio>400
• Minimum width=1µm
• Sidewall verticality=88°
• Roughness quality=4nm
• Only straight lines are possible
• Maximum channel width=100µm
• Thickness homogeneity>1µm
Advantages Drawbacks
June 2015 Femtosecond Laser
Micro-structuration of transparent materials
6
• Complex and deep etching
are possible
• Anisotropic etching (Dry)
• Controlled roughness
• Low aspect ratio
• Multistep process
• Sidewall verticality=80°
Advantages Drawbacks
Dry and wet etching
100µm
500µm
June 2015 Femtosecond Laser
Micro-structuration of transparent materials
7
Advantages Drawbacks
Laser machining
Case : Gaussian beam
100µm
40µm
• Fast complex and deep
etching are possible
• One step etching
• Low aspect ratio
• Roughness>0,2µm
• Sidewall verticality=75°
June 2015 Femtosecond Laser
Nano-structuration of transparent materials
8
Focused ions beam Clean room technology
• Limited aspect ratio
• Very long time processing
Femto-ST
2µmx2µm
June 2015 Femtosecond Laser
Limits of classical femtosecond laser machining
9
High focusing
Machining deep ~ µm
1µm
Low aspect ratio~20
Opt Exp 18, 16840 (2010)
June 2015 Femtosecond Laser
Our technic : Bessel beams
avril 2015 Laser femtoseconde 10
Top
Middle
End
Z
X
Y
X
Y
X
Y
Bessel beam diameter less than 1µm
Bessel length reaches several
hundred microns
High stability and homogeneity
Nano-structuration by Bessel beams
avril 2015 Laser femtoseconde 11
Surface nano-structuration
Perfect circle less than 1µm of diameter
Depth less than 0,5µm
Lithium niobate
avril 2015 Laser femtoseconde 12
Aspect ratio =100
200nm
300nm
Glass
one pulse=one channel
Bhuyan et al, Appl. Phys. Lett., 97, 081102 (2010)
Nano-structuration by Bessel beams
avril 2015 Laser femtoseconde 13
300nm
Aspect ratio=400 114µm
300nm
Glass
one pulse =one channel
The ablation rate per pulse
is greater than 32μm3
Gaussian beam<2µm3
Nano-structuration by Bessel beams
avril 2015 Laser femtoseconde 14
Zoom Index modification
Glass
Nano-structuration by Bessel beams
Index modification can
be done until 2mm depth
avril 2015 Laser femtoseconde 15
Excellent surface quality : optical quality
Top view
Inside channel view
574nm
Lithium niobate
Nano-structuration by Bessel beams
460nm
mai 2015 Laser femtoseconde 16
500µm
New record
Aspect ratio>2000 Side view
OM
pic
ture
Nano-structuration by Bessel beams
SEM picture
Lithium niobate
avril 2015 Laser femtoseconde 17
30µm 50µm
300µm 150µm
Transparent materials laser cleaving
Vmax=100mm/s at low repetition rate
Glass
Glass thickness range 30µm to
500µm
Minimal micro-cracking<1µm
Surface roughness, Ra < 1µm
Speed cutting more than 1m/s is
expected at high repetition rate
Transparent materials laser cleaving
avril 2015 Laser femtoseconde 18
Quartz
Quartz thickness range 80µm to
500µm
Very good surface quality
Very good edge verticality
Surface roughness, Ra < 2µm
Quartz high speed cutting
Top Bottom
Edge
Top
avril 2015 Laser femtoseconde 19
Transparent materials laser cleaving
Lithium niobate & Lithium tantalate
Lithium niobate Lithium tantalate
High speed crystals cutting
250µ
m
Transparent materials laser machining
avril 2015 Laser femtoseconde 20
Diamond
300µm
Diamond straight cutting
X20 Surf
ace r
oughness (
µm
)
Scan distance (µm)
Ra~100nm
Surface quality
Edge view Zoom
Summary
avril 2015 Laser femtoseconde 21
Very high ablation rate > 30µm3
New aspect ratio record >2000
Possibility to nano-machine different kind of glass and crystals
High speed laser glass and crystals cleaving
avril 2015 Laser femtoseconde 22
Thank you for your attention
03 63 08 23 89