Multichannel custom picosecond amplifiers

Products High intensity systems PicoFlux Custom

Custom Picosecond Amplifiers

Multiple Channel PicoFlux series picosecond amplifiers were designed and manufactured for multiple stage OPCPA pumping.

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PicoFlux Custom

Overview Specifications Options Performance Publications Downloads

Overview

Features

Flash lamp or diode pumped multi-channel PicoFlux systems
Each of the channels can be tailored according to pumping requirements
High energy PicoFlux version with variable burst
Hybrid PicoFlux with fiber front-end and Yb:YAG amplifiers– 1 ps, 8mJ output at 10 kHz
1– 300 ps pulse duration
From Single Shot to 10 kHz pulse repetition rate
Internal or external seeding source
Advanced beam shaping for high pulse energy
Thermally induced birefringence compensated
Low jitter synchronization pulses below 10 ps RMS jitter
Vacuum image relay system
Optional temperature stabilized second, third and fourth harmonic generators

Applications

Multi-stage OPCPA pumping
Non-linear optics
Other spectroscopic and nonlinear optics applications…

Description

Multiple Channel PicoFlux series picosecond amplifiers were designed and manufactured for multiple stage OPCPA pumping. Systems can be specially tailored for customer‘s needs and have up to 8 pumping channels with different wavelength, energy, pulse duration, spatial and temporal profiles, adjustable delay, image translation to customers specified location and various other features. Short pulse duration, excellent pulse‑to-pulse stability, superior beam quality makes PicoFlux series picosecond amplifiers well suited for other applications as well.

Regenerative amplifier / Power amplifier design

PicoFlux series amplifiers are designed to be seeded by external seeding source. Diode pumped regenerative amplifier ensures amplification of seed signal to stable mJ level pulse for amplification in linear amplifiers. Advanced beam shaping ensures smooth, without hot spots beam spatial profile at the laser output. Low light depolarization level allows high efficiency generation of up to 4th harmonic with optional build-in harmonic generators. Alternatively Ekspla can offer an internal seeder meeting customer’s requirements.

Full-fiber front-end

Novel Ekspla developed fiber front‑end opens up new set of unique features for PicoFlux systems like dual wave seeder that also has burst formation functionality due to active fiber loop technology. The front‑end also permits to offer powerful, ultrafast and higher frequency Ytterbium amplifiers for wider opportunities in OPCPA pumping and other scientific uses.

Delivered Systems

Specifications

Model	PicoFlux P2k10-x4	PicoFlux P1301k-x8	PicoFlux P1k100-Burst	PicoFlux P810k-1030
Main specifications¹⁾
Output energy
Fundamental	4 × 2200 mJ^{2) 3)}	8 × 130 mJ	1.4J Burst (4×300 mJ + 4×50 mJ)	8 mJ @1030nm
SH output^{4) 5)}	4 × 1400 mJ	8 × 85 mJ	NA	NA
TH output⁴⁾	4 × 660 mJ	8 × 50 mJ	NA	NA
FH output⁴⁾	4 × 220 mJ	8 × 15 mJ	NA	NA
Pulse repetition rate	10Hz	1 kHz	100Hz	10 kHz
Pulse duration⁶⁾	90 ±10 ps	90 ±10 ps	90 ±10 ps	1 ±0.2 ps
Pulse energy stability⁷⁾
Fundamental	≤0.6 %	≤0.5 %	≤1 %	≤0.5 %
SH output⁴⁾	≤0.8 %	≤0.8 %	NA	NA
TH output⁴⁾	≤2 %	≤2 %	NA	NA
FH output⁴⁾	≤3 %	≤3 %	NA	NA
Long-term power drift⁸⁾	±2 %	±1.5 %	–	–
Beam spatial profile	Super-Gaussian⁹⁾	Super-Gaussian⁹⁾	Super-Gaussian and Gaussian⁹⁾	Gaussian⁹⁾
Beam diameter¹⁰⁾	~23mm	~7mm	~11 & 5mm	~6mm
Beam pointing stability¹¹⁾	≤30 µrad	≤20 µrad	≤20 µrad	≤20 µrad
Beam divergence	≤0.5 mrad	≤0.5 mrad	≤0.5 mrad	≤0.5 mrad
Pre-pulse contrast¹²⁾	>200:1	>200:1	>200:1	>200:1
Optical pulse jitter¹³⁾
Trig out	≤100 ps	≤100 ps	≤100 ps	≤50 ps
Pre-Trig out	≤50 ps	≤50 ps	≤50 ps	≤50 ps
With –PLL option	≤2 ps	≤2 ps	≤2 ps	NA
Polarization	linear	linear	linear	linear
Physical characteristics¹⁴⁾
Laser head size (W×L×H mm)	1500 × 3600 × 500, 2 pc.	1500 × 3600 × 500, 4 pc.	700 × 2000 × 300	900 × 1200 × 300
Power supply size (W×L×H mm)	553 × 600 × 1800, 4 pc.	553 × 600 × 1800, 4 pc.	553 × 952 × 600	553 × 952 × 600
Umbilical length¹⁵⁾	5m	2.5m	2.5m	3m
Operating requirements¹⁶⁾
Electrical power	208, 380 or 400 V AC, three-phase, 50/60Hz¹⁷⁾	208, 380 or 400 V AC, three-phase, 50/60Hz¹⁷⁾	208– 240 VAC, single-phase, 50/60Hz	208– 240 VAC, single-phase, 50/60Hz
Power consumption¹⁸⁾	≤40 kVA	≤60 kW	≤5 kW	≤3.5 kW
Water supply	≤40 l/min, 2 Bar, max 15 °C	≤40 l/min, 2 Bar, max 15 °C	≤5 l/min, 2 Bar, max 15 °C	≤15 l/min, 2 Bar, max 15 °C
Operating ambient temperature	22 ±2 °C	22 ±2 °C	22 ±2 °C	22 ±2 °C
Storage ambient temperature	15– 35 °C	15– 35 °C	15– 35 °C	15– 35 °C
Relative humidity (non-condensing)	≤80 %	≤80 %	≤80 %	≤80 %
Cleanness of the room	ISO Class 7	ISO Class 7	ISO Class 7	ISO Class 7

Model	PicoFlux P2k10-x4	PicoFlux P1301k-x8	PicoFlux P1k100-Burst	PicoFlux P810k-1030

Due to continuous improvement, all specifications are subject to change without notice. The parameters marked ‘typical’ are indications of typical performance and will vary with each unit we manufacture. Presented parameters can be customized to meet customer‘s requirements. All parameters measured at 1064nm if not stated otherwise.
2200 mJ energy is achieved with Super-Gaussian spatial beam profile of 11th or higher order (with steep edges). If lower order Super-Gaussian is required maximum pulse energy will be limited to 2 000 mJ.
2 500 mJ output energy is available upon request with longer pulse duration.
Harmonic outputs are optional. Specifications valid with respective harmonic module purchased. Outputs are not simultaneous.
Second harmonic specification is valid when only SH option is ordered. If TH/FH options are orders second harmonic efficiency is reduced to ~50%.
Standard pulse duration is 90 ps. Other pulse durations can be ordered within range of 20– 300 ps. Shortening the pulse duration below 90 ps will reduce the output energy proportionally.
Under stable environmental conditions, normalized to average pulse energy (RMS, averaged from 60s).
Measured over 8 hours period after 30 min warm-up when ambient temperature variation is less than ±2 °C.
Super-Gaussian spatial mode of 6-11th order in near field.
Beam diameter is measured at signal output at 1/e² level for Gaussian beams and FWHM level for Super-Gaussian beams.
Beam pointing stability is evaluated as movement of the beam centroid in the focal plane of a focusing element (RMS, averaged from 60s).
1000:1 contrast available upon request.
Optical pulse jitter with respect to electrical outputs:
– Trig out >3.5 V @50 Ω
– Pre-Trig out >1 V @50 Ω
– PLL option >1 V @50 Ω
System sizes are preliminary and depend on customer lab layout and additional options purchased.
Longer umbilical with up to 10m for flash lamp pumped and up to 5m for diode pumped systems available upon request.
The laser and auxiliary units must be settled in such a place void of dust and aerosols. It is advisable to operate the laser in air conditioned room, provided that the laser is placed at a distance from air conditioning outlets. The laser should be positioned on a solid worktable. Access from one side should be ensured.
Voltage fluctuations allowed are +10 % / -15 % from nominal value.
Required current rating can be calculated by dividing power rating by mains voltage. Power rating is given in apparent power (kVA) for systems with flash lamp power supplies and in real power (kW) for systems without flash lamp power supplies where reactive power is neglectable.

Note: Laser must be connected to the mains electricity all the time. If there will be no mains electricity for longer that 1 hour then laser (system) needs warm up for a few hours before switching on.

Ordering information

Options

Option	Description	Comment
-P20…300	Custom pulse duration between 20 ps and 300 ps	Available with internal and external seeder. Shortening the pulse duration below 90 ps will reduce the output energy proportionally
-50/100	50Hz or 100Hz pulse repetition rate	Energy can be increased ~4 times compared to 1 kHz systems
-2k	2 kHz pulse repetition rate	Reduces the output energy of fundamental by ~50%
-G	Gaussian like spatial beam profile	Reduces the output energy of fundamental by ~80%
-FS	External seeder input via motorized spectral broadening stage	Requires >1.5 nJ per pulse @800nm, 100 fs
-PLL	Phase Lock Loop option for precise lock to external RF signal	Electrical to optical signal jitter ≤3 ps
-SH/TH/FH	Second, third and fourth harmonic outputs	Conversion efficiency from fundamental respectively ~50 %, ~30 % and ~10 %. Harmonic outputs not simultaneous with fundamental output
-AW	Water-to-Air cooling	Replaces or supplements Water-to-Water cooling unit. Heat dissipation equals total power consumption

Option	Description	Comment

Performance

Typical PicoFlux Ytterbium system amplifier system near field beam profile at 1030nm. Imaged from laser output.

Typical High Energy PicoFlux amplifier system near field beam profile at 1064nm. Imaged from laser output.

Typical High repetition rate PicoFlux amplifier system far field beam profile at 532nm. Imaged from SH crystal.

Typical output pulse spectrum of the PicoFlux Ytterbium system.

Typical pulse shape (FROG measurement) PicoFlux Ytterbium system.

Typical long-term energy stability of High repetition rate PicoFlux system.

Typical long-term energy stability of High Energy PicoFlux system.

Publications

High Intensity Sources OPCPA Systems PicoFlux Custom PicoFlux HP UltraFlux Custom UltraFlux HE UltraFlux HR

53W average power CEP-stabilized OPCPA system delivering 5.5 TW few cycle pulses at 1 kHz repetition rate

R.Budriūnas, T.Stanislauskas, J.Adamonis, A.Aleknavičius, G.Veitas, D.Gadonas et al., Opt. Express 25 (5), 5797-5806 (2017). DOI:10.1364/OE.25.005797.

Downloads

PicoFlux Custom Picosecond Amplifiers Product datasheet. 541 KB, rev.250117.

High Intensity Laser Systems Product catalog. 3.2 MB, rev.250117.

Multichannel custom picosecond amplifiers – EKSPLA (2025)