TR-ARPES

Photoemission spectroscopy (PES), refers to energy and momentum measurement of electrons emitted from solids thanks to the use of photons. The ionization energy is provided by XUV (PES or ARPES) or EUV (2PPES), while the pump is usually provided by an OPA.

ARPES is used to map the complete electronic band structure for conductors and insulators, among others. Time- and angle-resolved photoemission spectroscopy (TR-ARPES), adds femtosecond temporal resolution, and thus also resolves elementary scattering processes in the electronic band structure.

To avoid space charge problems (electrons repealing each other), one electron or less should be produced and analyzed per laser shot. The application thus requires moderate energy high rep rate sources, and a complete measurement typically lasts 4h at 200kHz.

Amplitude range of Ytterbium lasers, such as the SatsumaX and the Tangor 100 are ideal driving sources for this application. Additional modules such as COMPRESS and HHG chamber, combined with Fastlite twinStarzz MIR OPA, are state of the arts devices allowing to build a unique TR-ARPES setup from a single supplier.

Arpes spectroscopy schema - Amplitude Laser

Key Components and Processes

Photoemission spectroscopy (PES) measures the energy and momentum of electrons emitted from solids under photon excitation. Variants include ARPES for mapping electronic band structures and TR-ARPES for femtosecond-resolved studies of scattering processes. The technique requires moderate-energy, high-repetition lasers to avoid space-charge effects while enabling hours-long acquisitions.

  • Ytterbium lasers: ideal moderate-energy, high-rep drivers for TR-ARPES.
  • Instrumentation and advanced modules : high-harmonic generation and pump–probe flexibility.

Ready to connect?

Let our experts help you in the development of your applications

Contact us

Recommended products

Picture of Ti:Sapphire Arco

Arco
The best of Ti:Sapphire technology Arco - the class of ultra-intense fs laser systems designed as the ideal light source for the most demanding applications....
  • Pulse Duration
    From < 20 fs to < 100 fs
  • Peak Power
    Up to 120 TW
  • Energy Per Pulse
    From 5 mJ to 2,7 J
Ytterbium Magma laser

Magma
Magma is the world’s first industrial-grade ultrafast laser platform delivering up to 500 mJ pulse energy in picosecond or sub-picosecond regime. The diode-pumped technology...
  • Pulse Duration
    < 700 fs to 10 ps
  • Peak Power
    > 4 GW ~ > 1 TW
  • Energy Per Pulse
    From 5 mJ to 500 mJ
Best seller Femtosecond laser Satsuma

Satsuma
Compact industrial ultrafast laser and worldwide best seller The Satsuma product line of femtosecond laser offers versatility in the...
  • Pulse Duration
    350 fs
  • Average Power
    5 W
  • Energy Per Pulse
    10 µJ to 60 µJ
Image of ultrafast laser Tangor

Tangor 100
Powerful, full-featured and versatile femtosecond laser Tangor 100 is a 100W, IR, femtosecond laser combining high repetition rate AND high energy per pulse (500 µJ...
  • Pulse Duration
    From 500 fs to 10 ps
  • Average Power
    From 30 W to 100 W
  • Energy Per Pulse
    From 75 µJ to 700 µJ

TwinStarzz
The TwinStarzz, featuring a revolutionary and exceptionally stable design, offers remarkable simplicity while delivering efficient, short, and tunable pulses in the mid-infrared (MIR) range....

Synchronization
Synclock and Amplock are state-of-the-art synchronization add-ons compatible with all Amplitude ultrafast laser portfolio. This versatile solution is designed for highest accuracy synchronization...
Compress module product image

Compress
Industrial pulse compression extension/ The result of several years of intensive research and development efforts, Amplitude’s Compress pulse shortening extensions reduce pulse durations well...