134                                                   Minimal surfaces

                          As already said we have the following characterization for surfaces of revolu-
                       tion.
                       Proposition 5.11 The only regular minimal surfaces of revolution of the form

                                         v (x, y)= (x, w (x)cos y, w (x)sin y) ,

                       are the catenoids, i.e.
                                                              x + µ
                                                 w (x)= λ cosh
                                                               λ
                       where λ 6=0 and µ are constants.
                          Proof. We have to prove that Σ given parametrically by v is minimal if and
                       only if
                                             w (x)= λ cosh ((x + µ) /λ) .

                       Observe first that
                                                                              02
                                0
                       v x =(1,w cos y, w sin y) ,v y =(0, −w sin y, w cos y) ,E =1+w ,F =0,G = w 2
                                       0
                                                                 w (w , − cos y, − sin y)
                                                                      0
                              v x × v y = w (w , − cos y, − sin y) ,e 3 =  √
                                           0
                                                                 |w|      1+ w 02
                        v xx = w (0, cos y, sin y) ,v xy = w (0, − sin y, cos y) ,v yy = −w (0, cos y, sin y)
                                                     0
                               00
                                            w   −w 00                 |w|
                                       L =    √       ,M =0,N = √           .
                                           |w|  1+ w 02              1+ w 02
                                                                                   2
                       Since Σ is a regular surface, we must have |w| > 0 (because |v x × v y | = EG −
                         2
                       F > 0). We therefore deduce that (recalling that |w| > 0)
                                                              ¡      ¡     02  ¢¢
                                                                 00
                                 H =0 ⇔ EN + GL =0 ⇔ |w| ww − 1+ w            =0
                                                                02
                                                       00
                                                 ⇔ ww =1 + w .                          (5.1)
                       Any solution of the differential equation necessarily satisfies
                                                  "            #
                                                d      w (x)
                                                   p            =0 .
                                               dx    1+ w (x)
                                                          02
                       The solution of this last differential equation (see the corrections of Exercise
                       5.2.3) being either w ≡ constant (which however does not satisfy (5.1)) or of the
                       form w (x)= λ cosh ((x + µ) /λ),wehavethe result.
                          We now turn our attention to the relationship between minimal surfaces and
                       surfaces of minimal area.