Chapter 1 Basic aspects of atom J. Robert Oppenheimer (1904-1967) Werner Heisenberg (1879-1976) Albert Einstein (1879-1955) Enrico Fermi (1901-1954)

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Presentation transcript:

Chapter 1 Basic aspects of atom

J. Robert Oppenheimer ( ) Werner Heisenberg ( ) Albert Einstein ( ) Enrico Fermi ( ) Ernest Rutherford ( ) Niels Bohr ( )

Chapter 1. Basic aspects of atom TT he atomic physics is the products of the first third of 20 th century. TT he study of the micro-world of atoms caused a revolution of physical thoughts, a revolution of fundamental ideas of classical physics, such as mechanics, acoustics, thermodynamics, and electricity. AA basis for other fields: Physics, Technologies, and Applications. Introduction:

Geophysics (Earth's magnetic field) Biophysics (Comples molecular structures) Plasma Physics (Excitation mechanisms) Astrophysics (Atomic spectroscopy) Chemical Physics (Formation of molecules, chemical reactions) Solid State Physics (Ideal and defect structures) physics Communications Technology (laser techniques, ionosphere) Medical Technology (Radiation effects) Quantum Electronics (Lasers, frequency standards, navigation, geodetics) Technology Energy Problems (New methods of energy production) Environment (Detection of pollution) Space Research (Earth and planetary atmospheress,weather) Determination of Units (Fundamental constants) Applications atomic physics basic research determination of atomic data

The goal of Atomic Physics An understanding of :  T he structure of atoms, he interaction with one another, he interaction with electric and magnetic fields. Chapter 1. Basic aspects of atom

What is the atom? An atom is the smallest unchangeable components of a chemical elements Unchangeable means in this case by chemical means, i.e. by reactions with acids, or basis, or the effects of moderate temperature.

The components of atoms

Can we “see” the atoms? By Eyes no By Optical microscope no By Electron microscope possible Modern methods: TT he field emission microscope To visualize single atom or large molecules on the tip of fine metal points SS EM(Scanning Electron Microscopy) To image the individual atoms in molecules and in crystals. TT EM (Transmission Electron Microscopy) SS TM (Scanning Tunneling Microscopy)

TEM

STM image

Atom manipulation By STM Fe atoms on Cu(111)

Short historical review The word atom comes from the Greek and means “the indivisible”, the smallest components of matter. In 5 th and 4 th centuries BC, the concept of atom was first introduced by Greek natural philosophers. The first theories of the structure of matter were those of Democrites ( BC), Plato ( BC), and Aristotle ( BC). It required more than two millennia until this speculative atomism grew into an exact atomic physics in the modern sense.

The atomism as understood by modern science was first discovered for matter, then for electricity, and finally for energy.

The atomism of matter: From chemical investigations, the laws of constant and multiple properties (weight) formulated by J. L. Proust (1799) and by Dalton (1803): 14g N g O 2 — 30g NO; the volumes of gases by Gay-Lussac (1808): 1 volume N volume O 2 — 2 volumes NO Proust (1815) assumed that the atoms of all elements are put together out of Hydrogen atoms. The periodic system of L. Meyer and D. I. Mendeleev. The hypothesis of Avogadro(1811): equal volumes of gass under similar conditions (pressure, temperature) contain equal numbers of molecules. The explanation of heat led to the kinetic theory of gases by Clausius and Boltzmann in about 1870.

The atomism of electricity: Based on the quantitative evaluation of exceedingly careful measurements of the electrolysis of liquids, Michael Faraday (in 1833): The quantity of an element which is separated is proportional to the quantity of charge transported in the process. The “atoms” of electricity was later known as the electrons.

The atomism of energy: On Dec. 14, 1900, Planck announced that: the energy of harmonic oscillations, for black body radiation, can only take on discrete values (the concept of quanta) — the birth of quantum theory. 1860, Kirchhoff and Bunsen: optical spectra are characteristic of the elements which are emitting or absorbing the light. 1885, Balmer: finding an ordering principle in spectral lines emitted from Hydrogen atoms. 1911, Rutherford: the planet model of the atom; 1913, Bohr: Bohr model of Hydrogen atom. By De Broglie: the concept of matter waves. 1920~1930, Born, Heisenberg, Schrödinger, Pauli, Dirac, and other researches: Quantum theory.

The optical principle of TEM