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4                              Veterinary Laser Therapy in Small Animal Practice



                     Electric field
                        2-D
                        Magnetic field                                              Visible
                          3-D
                                                Propagation
                                                 1-D


                                         10 3  10 2  10 1  1  10 -1  10 -2  10 -3  10 -4  10 -5  10 -6  10 -7  10 -8  10 -9  10 -10  10 -11  10 -12
                               Wavelength
                               (meters)  longer                                                                  shorter
                                         km            m             mm            µm             nm
                                           10 6  10 7  10 8  10 9  10 10  10 11  10 12  10 13  10 14  10 15  10 16  10 17  10 18  10 19  10 20
                               Frequency
                                 (Hz)
                                          MHz             GHz
                                                                                                 keV          MeV
                              Photon energy   lower                                                               higher
                              (electron Volts)
                                        10 -9  10 -8  10 -7  10 -6  10 -5  10 -4  10 -3  10 -2  10 -1  1  10 1  10 2  10 3  10 4  10 5  10 6
                                             Radiowaves    Microwaves      Infrared     Ultraviolet  X-Rays   ɣ-Rays
                     Figure 1.1 Structure of light as an electromagnetic wave (top). You can also see the scale of photon energy across the full
                     electromagnetic spectrum.

                     cones that can detect wavelengths from about 390–700   them  called  tissues.  Inside  the  atom,  electrons  are
                     nm, which is what we call the visible part of the spec-  orbiting  the nucleus in  a cloud that  has some  struc-

                     trum. The near-infrared spans from about 700–1100   ture to it and has an equilibrium state. Molecules are
                     nm. I’ll bounce between these descriptions (wavelength   atoms connected by bonds, which are made up of some
                     and frequency) many times, but either one of them tells   sharing of these electron clouds and which also have an
                     the whole story.                                   equilibrium state. And most of the equilibrium states of


                        This is the full, classical picture of light as it pertains   these entities are electrically neutral. This doesn’t mean
                     to the kinds of therapy discussed in this book, i.e. non-  that there are no charged particles, but rather that there
                     ionizing (and in particular, visible and infrared) light   are as many positively charged things as there are nega-

                     incident on living biological tissue. There is so much   tively charged things.

                     more  interesting  stuff to  learn  about  light,  but  not   But light is an oscillating electromagnetic field, and

                     much of it will help you in the clinic, so we will not   charged particles in this kind of field experience a force.

                     cover it here.                                     So shining light on matter exerts a force on these equi-
                        OK, one  more tidbit  because it’s  cool and  head-  librium states, and as it passes by, the matter creates

                     spinning and it will affect how we talk about light a little   some  recoil  force,  much  like  a  spring  (warning:  we
                     later on: it turns out that the energy of light is directly   physicists use the concept of springs to explain every-

                     proportional to its frequency (and therefore inversely   thing). The force experienced by the matter is pro-
                     proportional to its wavelength). To compound this, the   portional to the energy of the field (frequency of the

                     amount of energy any “piece” of light carries is discrete or   light) and the mass and charge of the particles (atomic/

                     “quantized.” These individual packets of light are called   molecular structure) of the matter.

                     photons and make up the quantum picture of light.    So matter, in effect, is just a bunch of charged atomic
                        The main question remains: why does frequency, this   nuclei tied together with a bunch of springs. The types


                     one characteristic of this phenomenon we call light,   of interactions you get, then, are simply regulated by
                     determine such a broad range of implications, i.e. from   the frequency of oscillation of the light and how this
                     destruction to manipulation, from imaging to therapy?  corresponds to the frequency of oscillation of the bonds
                        Oddly enough, that question boils down to a differ-  of the things they bump into.

                     ent kind of question: what happens when something
                     that wiggles bumps into something else that wiggles?           1.2 Absorbing light
                     We’ve already established that light can be described as

                     an oscillating field. Well, matter is made up of atoms,   Absorption happens when the frequency of light is
                     groups  of  them  called  molecules,  and  big  groups  of   close to the natural frequency of the thing it interacts









         REDONDO PRINT (4-COL BLEED).indd   4                                                                          08/08/2019   09:46
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