An　effective　approach　is　proposed　to　adjust　the　surface　morphology　induced　by　using　a　femtosecond　laser,　including　the　area　and　period　of　rippled　structures.　The　effect　of　the　processing　steps　and　laser　polarization　on　the　surface　morphology　of　rippled　structures　on　a　titanium　surface　was　experimentally　investigated　in　this　study.　A　processing　sequence　was　designed　for　two　series　of　femtosecond　laser　pulses　that　irradiate　a　titanium　surface,　for　example,　N　=　50(0　degrees)　+　50(90　degrees).　The　experimental　results　show　that　the　area　and　period　of　rippled　structures　can　be　simultaneously　adjusted　by　following　a　two-step　method.　Due　to　the　enhancement　of　energy　absorption　and　SP-laser　coupling　of　the　initial　rippled　structures,　large　area　surface　structures　with　small　periods　are　fabricated　using　two　series　of　femtosecond　laser　pulses　with　the　same　polarization　direction.　By　changing　the　polarization　direction　of　the　two　series　of　femtosecond　laser　pulses,　the　recording,　erasing,　and　rewriting　of　subwavelength　ripples　is　achieved.　During　the　rewriting　process,　material　removal　and　the　formation　of　new　ripples　simultaneously　occur.