72 Hydrogen Atom Microscope Výborně

72 Hydrogen Atom Microscope Výborně. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The atom is placed in an electric field e and excited by laser pulses (shown in blue).

May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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The atom is placed in an electric field e and excited by laser pulses (shown in blue).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue)... The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

The atom is placed in an electric field e and excited by laser pulses (shown in blue).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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The atom is placed in an electric field e and excited by laser pulses (shown in blue).. . The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right)... The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The atom is placed in an electric field e and excited by laser pulses (shown in blue)... The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. . The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right)... .. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The atom is placed in an electric field e and excited by laser pulses (shown in blue)... May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

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The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right)... The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The atom is placed in an electric field e and excited by laser pulses (shown in blue).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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The atom is placed in an electric field e and excited by laser pulses (shown in blue)... . The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue)... May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue)... May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). . The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

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May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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The atom is placed in an electric field e and excited by laser pulses (shown in blue).. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).

May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The atom is placed in an electric field e and excited by laser pulses (shown in blue).. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

Hydrogen Atoms Under The Microscope Max Born Institut

The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. The atom is placed in an electric field e and excited by laser pulses (shown in blue).

May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom... The atom is placed in an electric field e and excited by laser pulses (shown in blue).

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right).. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom. May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The atom is placed in an electric field e and excited by laser pulses (shown in blue). The ionized electron can escape from the atom along direct and indirect trajectories with respect to the detector (shown on the far right). May 28, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.. May 27, 2013 · a photoionization microscope provides direct observation of the electron orbital of a hydrogen atom.

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