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An STM Measures I(r) Tunneling is one of the simplest quantum mechanical process A Laser STM for Molecules Tunneling has transformed surface science. Scanning.

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Presentation on theme: "An STM Measures I(r) Tunneling is one of the simplest quantum mechanical process A Laser STM for Molecules Tunneling has transformed surface science. Scanning."— Presentation transcript:

1 An STM Measures I(r) Tunneling is one of the simplest quantum mechanical process A Laser STM for Molecules Tunneling has transformed surface science. Scanning the field around the molecule is like scanning the tip across a surface -- a molecular STM

2 H 2 ionization in circularly polarized light e p The electron direction determines the field direction at the moment of ionization The bond softened ion determines the molecule’s direction at the moment of ionization

3 COLTRIMS – measuring the 3d-momenta of correlated particles

4 PRL 102, 033004 (2009) The angle-dependent ionization probability

5 Implications of high tunneling rates: “DC” tunneling – The exponent is ~ 30-40. A small change in E i is highly leveraged by the large E a /E(t). Laser tunneling: -- The exponent is ~ 8. The leverage is weakened. Lower orbitals will contribute.

6 PRL 94, 033003 (2005) Measuring excited states

7 The laser STM senses the structure of orbitals: SU1 – direct tunneling SU2 – excitation by bound state interaction with the departing electron  IP~4 eV

8 Applying the “laser STM” to HCl

9 Deeper orbitals tunnel ionize (directly)

10 HCl Two or more orbitals can ionize

11 Transient alignment of molecules time Phys. Rev. A. 68, 023406 (2003)

12 A molecular STM has much more information

13 Normalized Differences Notice: 1 Low lateral momentum structures – tunneling and 2 High lateral momentum structures – elastic scattering Science 3201478 (2008)

14  p molecule p normal laser The Model: 1.Assume 2.Propagate swarm of electron trajectories classically 3.Including electron-ion interaction 4.Include alignment distribution

15 Low Lateral momentum electrons Science 3201478 (2008)

16 N2N2 O2O2 CO 2 PRL 98, 243001 (2007) The angle dependent probability

17 Transparent Solids:  E = O(10eV) a b c  -SiO 2 Al 2 O 3 LiF crystal structure

18 Extending to Solids? The Lawn Mower Model Self-controlled energy deposition. electron and energy density is predicted. Opt. Express 13, 3208 (2005).

19 Transmission as a function of angle

20 Angle dependent changes in the reduced-mass change the ionization rate. ( /2) ~  m 3 resolution

21 crystalline fused Only the focal region is measured Phys. Rev. Lett. 101, 243001 (2008) 0 amorphous crystal

22 The laser STM Atoms: The filter function using circular polarization. Molecules: The orbital Filtered image of the orbital Quantify the contribution of lower orbitals. Solids: The reduced tunneling mass Measuring crystal symmerty Link to HHG – correlated measurements

23 A mixture of optical and collision science Coherence can be transferred several times between electrons and photons The mixture offers new opportunities for each To optics -- Angstrom spatial imaging. To collision physics -- Time resolution. Bertrand P1, Wörner P3, Meckel

24 Three new forms of nonlinear spectroscopy 1Tunneling (to characterize orbitals) 2Elastic scattering or Laser Induced Electron Diffraction (to determine nuclear positions) – see Meckel et al. 3Interferometry (to image orbitals -- photoelectron spectroscopy in reverse) – see poster by Bertrand P1 and Wörner P3

25 The tunneling electron wave packet of O 2

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