Cavity Dumper Kit

Cavity Dumper Kit

Intracavity Reduction of Pulse Repetition Rates


Intracavity Reduction of Pulse Repetition Rates


Overview

The Cavity Dumper Kit is an acousto-optical switch that can be integrated into the cavity of a mode-locked laser system for the reduction of the system’s pulse repetition rate. Unlike pulse pickers the intracavity operation increases the pulse energy to a multiple of the energy that is reached by the normal mode-locked pulses of the system. This makes it particularly relevant for non-linear optical processes like SHG and THG.

The Cavity Dumper Kit consists of an acousto-optical Bragg cell to be integrated into the laser cavity and the pulseSwitch control electronics. As an option APE offers a mounting kit for holding the Bragg cell, which provides all the necessary tools for adjusting the modulator.

The control electronics generate the RF carrier signal for the Bragg cell from a seed input signal with the repetition rate of the mode-locked system. An internal frequency divider allows for division rates between 1 : 2 and 1 : 260,000 of the seed frequency. External triggering and therefore single pulse operation is possible as well. The phase of the RF signal is fine-tuned by a phase shifter as a requirement for using the cavity dumper in double pass operation.

At a Glance

  • Reduction of the pulse repetition rate while increasing the pulse energy
  • Single pulse operation
  • Generation of powerful laser pulses
  • Fast rise times
  • Tunable phase shift
  • Suitable for a variety of different Ti:Sapphire, ion- and dye lasers as well as other laser systems

pulseSwitch: Cavity Dumper for Coherent Mira 900


pulseSwitch

The cavity dumper pulseSwitch is an acousto-optical switch, which – unlike pulse pickers – is integrated into the laser resonator. It is designed specifically for use with the Coherent Mira 900 femtosecond Ti:Sapphire laser. Since 2017, pulseSwitch is no longer available but replaced by the Cavitiy Dumper Kit (see above).

  • Designed for use with the Coherent Mira 900 fs Ti:Sa laser
  • Please note: pulseSwitch is no longer available but replaced by the Cavity Dumper Kit

Theorie of Operation: Cavity Dumping


A cavity dumper extends the usability of a mode-locked laser system by offering higher peak power at lower repetition rates.

Mode-locked lasers which are capable of generating very short laser pulses (e.g. picosecond or femtosecond pulses) have pulse repetition rates corresponding to the round trip time of the light in the laser cavity. This frequency is around 80 MHz for many tunable solid state-, ion-, and dye lasers used in scientific applications. This frequency corresponds to a pulse separation time of 12.5 ns. For a number of applications like the measurement of longer fluorescence delay times or some pump and probe experiments it is desirable, however, to have a lower repetition rate.

This can be achieved with different methods acting inside or outside the laser cavity. The APE Cavity Dumper Kit, for example, is well suited for pulse selection of mode-locked lasers with repetition rates between 50 MHz and 85 MHz inside the laser cavity. The pulse energy increases compared to simple mode-locked operation at the same time. The function is based on the acousto-optical effect. In a suitable crystal (e.g. fused silica) a modulation of density and thus a refractive index is introduced by applying a high frequency acoustic signal. This acts as a three dimensional optical grating on a laser beam passing the crystal and leads to a diffraction of the beam. The acoustic wave inside the crystal is generated by applying an electrical RF signal to a piezoelectric transducer cemented on the crystal. By using short RF pulses single laser pulses can be selected out of the pulse train and detected to the first diffraction order. That way they are separated from the other pulses and coupled out of the laser cavity and can be used in the experiment.

A typical Cavity Dumper Kit may consist of the fused silica Bragg cell and mounting kit and the driver and control electronics module. The Bragg cell as the most important part selects single pulses from the laser beam based on the acousto-optical effect. The intra-cavity beam must be focused into the Bragg cell by suitable spherical mirrors to achieve the necessary fast switching time. The driver electronics provides the modulated RF signal for the Bragg cell with a carrier frequency equal to the fivefold of the laser repetition rate and an output power of up to 16 W (peak). The division ratio of the mode-locked laser repetition rate is for example between 1:2 and 1:260,000. For synchronization, the user must provide a seed signal with the laser repetition rate (for instance from a fast photodiode) and with an amplitude of 30 mV … 300 mV at 50 Ohm. Instead of using the internal frequency divider, pulses can be selected by external triggering with a TTL signal at 50 Ohm external trigger input. In this case the “SEED” input signal is required as well. Depending on the applied modulator type diffraction efficiencies of > 50 % (fused silica, single pass at 800 nm) can be achieved. Usually the cavity dumper is operated in double pass mode to increase the efficiency. For this the Cavity Dumper Kit offers a phase adjustment of the RF carrier frequency.

Specifications

Cavitiy Dumper Kit Specification    
* Single pass at 800 nm, 4 MHz (varying with wavelength and repetition rate)** Synchronization signal with the laser repetition rate from a fast photodiode is required.
Modulator Element
MaterialFused silica, Brewster configuration
Required beam diameterapprox. 50 µm
Wavelength Range340 ... > 1600 nm
Diffraction Efficiency> 50%*
RF Driver
Seed Frequency (f Rep)**72 ... 81 MHz (to be specified with ± 0.5 MHz accuracy at time of order)

35 ... 90 MHz (on request)
Output Repetition RateSingle shot ... 3 MHz externally triggered
f Rep/2 ... f Rep/260,000
or externally triggered
Carrier Frequencysynchronized to seed frequency
Electronical Pulse Rise Time2 ns
Electronical Pulse Timing Jitter< 50 ps
RF Phase Shift Tuning Range> 180°

Datasheets & Brochures

Cavity_Dumper_Kit (pdf / english)


Contact Us







I consent to APE's data safety & privacy conditions.

You need to consent to APE's data safety & privacy conditions before the "send" button is active. You find the data safety & privacy conditions here.

or

Email & Phone Contacts

APE has distributors around the world to give you the best support. Choose a country to find your local sales contact:

APE Angewandte Physik und Elektronik GmbH
Plauener Strasse 163-165 | Haus N
13053 Berlin, Germany

Phone: +49 30 986 011-30
Fax: +49 30 986011333

Sales: sales@ape-berlin.de
Support: service@ape-berlin.de

Coherent Scientific pty. Ltd.
Hilton SA 5033, South Australia

Phone: +61 8 8150 5200
Email: sales@coherent.com.au
Website: www.coherent.com.au

APE Angewandte Physik und Elektronik GmbH
Plauener Strasse 163-165 | Haus N
13053 Berlin, Germany

Phone: +49 30 986 011-30
Fax: +49 30 986011333

Sales: sales@ape-berlin.de
Support: service@ape-berlin.de

PulsePower Technology Ltd.
Beijing, Haidan District
China 100090

Phone:+86 10 62565117
Email: mlu@pulsepower.cn
Website: www.pulsepower.cn



Pinnacle Scientific Cooperation
Hangzhou, Jianggan District
China 310020

Phone: +86 571 88225151
Email: sales@psci.cn
Website: www.psci.cn

OptiXs
199 00 Praha 9, Česko

Phone: +420 212 247 293
Email: info@optixs.cz
Website: www.optixs.cz

APE Angewandte Physik und Elektronik GmbH
Plauener Strasse 163-165 | Haus N
13053 Berlin, Germany

Phone: +49 30 986 011-30
Fax: +49 30 986011333

Sales: sales@ape-berlin.de
Support: service@ape-berlin.de

Optoprim
40 rue Victor Basch, 91300 Massy, France

Phone: +33 1 419 061 80
Email: info@optoprim.com
Website: www.optoprim.com

Laser Sciences Services Pvt. Ltd.

Phone: +91 2778 1673
Email: sales@laserscience.in
Website: www.laserscience.co.in/

Ammo Engineering E.O.(1995) Ltd.
Petach Tikva 49171, Israel

Phone: +972 3 9239 666
Email: shmuelr@ammo.co.il
Website: www.ammo.co.il

Optoprim Srl.

UFFICIO DI MONZA
Via Rota, 37
20900 Monza (MB)

Phone: +39 039 834977
Email: info@optoprim.it
Website: www.optoprim.it

UFFICIO DI ROMA
Via Monte Giberto, 15
00138 Roma

Phone: +39 06 87657838
Email: info@optoprim.it
Website: www.optoprim.it

Phototechnica Corporation
Saitama 336-0017, Japan

Phone: +81 48 871 0067
Email: voc@phototechnica.co.jp
Website: www.phototechnica.co.jp

RayVis
Seoul 137-862, Korea

Phone: +82 2 3461 1103
Email: sales@rayvis.co.kr
Website: www.rayvis.co.kr

STARK SCIENTIFIC S.A. DE C.V.
Guty Cardenas 147, Guadalupe Inn
Ciudad de Mexico, C.P. 01020, Mexico

Main Contact: Vicente Garcia Gomez

Phone: +52 555 401 8254
Email: sales@starkscientific.com

Eurotek International
02-668 Warsaw, Poland

Phone: +48 22 843 79 40
Email: eurotek@eurotek.com.pl
Website: www.eurotek.com

Innova Scientific S.L.
28290 Las Rozas de Madrid, Espana

Phone: +34 91 7105650
Email: info@innovasci.com
Website: www.innovasci.com

AceXon Technologies Pte. Ltd.
Singapore 658065

Phone: +65 6565 7300
Email: sales@acexon.com
Website: www.acexontech.com

Innova Scientific S.L.
28290 Las Rozas de Madrid
Espana

Phone: +34 91 7105650
Email: info@innovasci.com
Website: www.innovasci.com

APE Angewandte Physik und Elektronik GmbH
Plauener Strasse 163-165 | Haus N
13053 Berlin, Germany

Phone: +49 30 986 011-30
Fax: +49 30 986011333

Sales: sales@ape-berlin.de
Support: service@ape-berlin.de

SuperbIN Company Ltd.
5F., No. 41, Ln. 15, Sec. 6, Minquan E. Rd., Taipei 114
Taiwan, R.O.C.

Phone: +886-2-2793-0866
Fax: +886-2-2793-0855
Email: info@superbin.com.tw
Website: www.superbin.com.tw

APE Applied Physics & Electronics, Inc.
Vancouver | WA | USA

Phone: +1 888 690 3250
Sales: sales@ape-america.com
Support: service@ape-america.com

For pulseSwitch (Coherent Mira)

Germany Austria and Switzerland: APE GmbH

Other countries worldwide: Coherent Laser Group