Methods for forming films on substrates

We claim: 1 . A process system for forming a film on a substrate, comprising: a plurality of ampoules; a process chamber comprising: a showerhead, wherein the showerhead comprises a plurality of portions; and a pedestal; a plurality of delivery lines, wherein each delivery line of the plurality of delivery lines is connected from one of the plurality of ampoules to one of the plurality of portions of the showerhead; and a controller configured to regulate operation of the process system, wherein the controller comprises a memory containing instructions for execution on a processor comprising: controlling a temperature of and a pressure within a processing volume of each of the plurality of ampoules, wherein different materials are disposed within the process volume of each of the plurality of ampoules, the process volume of each of the plurality of ampoules are in fluid communication with one of the plurality of portions of the showerhead that is coupled to a process volume of the process chamber, and the controlled temperature is configured to cause each of the different materials to evaporate within each of the process volumes of the plurality of ampoules and flow to one of the plurality of portions of the showerhead; controlling a flow rate of each of the different materials from each of the plurality of portions of the showerhead and into the process volume of the process chamber by controlling the temperature of each of the plurality of portions of the showerhead; controlling a pressure within the process chamber; and controlling a rotation rate of a substrate on the pedestal disposed within the process volume of the process chamber, wherein the rotating substrate is exposed to the flow of different materials provided from each of the plurality of portions of the showerhead. 2 . The process system of claim 1 , wherein the controlled temperature of each ampoule of the plurality of the ampoules is different. 3 . The process system of claim 1 , wherein the controlled temperature of each ampoule of the plurality of the ampoules is substantially the same. 4 . The process system of claim 1 , wherein the controlled flow rate of each of the different materials from each portion of the plurality of portions of the showerhead is different. 5 . The process system of claim 1 , wherein the controlled flow rate of each of the different materials from each portion of the plurality of portions of the showerhead is substantially the same. 6 . The process system of claim 1 , wherein the controlled pressure within the process chamber is between about 1×10 −8 Torr and about 1×10 −5 Torr. 7 . The process system of claim 1 , wherein the controlled rotation rate of the pedestal is between about 0 RPM and about 200 RPM. 8 . A process system for forming a film on a substrate, comprising: a first ampoule and a second ampoule; a process chamber comprising: a showerhead, wherein the showerhead comprises a plurality of portions; and a pedestal; a plurality of delivery lines, wherein each delivery line of the plurality of delivery lines is connected from one each of the first ampoule and the second ampoule to one of the plurality of portions of the showerhead; and a controller configured to regulate operation of the process system, wherein the controller comprises a memory containing instructions for execution on a processor comprising: controlling a temperature of and a pressure within a processing volume of the first ampoule, wherein a first material is disposed within the process volume of the first ampoule, the process volume of the first ampoule is in fluid communication with a first portion of a plurality of portions of a showerhead that is coupled to a process volume of a process chamber, wherein the first portion of the plurality of portions of the showerhead has an input in fluid communication exclusively with a plurality of openings of the first portion of the showerhead, and the controlled temperature is configured to cause the first material to evaporate within the process volume of the first ampoule and flow to the input of the first portion of the showerhead; controlling a temperature of and pressure within a process volume of the second ampoule, wherein a second material is disposed within the process volume of the second ampoule, the process volume of the second ampoule is in fluid communication with a second portion of the plurality of portions of the showerhead that is coupled to the process volume of the process chamber, wherein the second portion of the plurality of portions of the showerhead has an input in fluid communication exclusively with a plurality of openings of the second portion of the showerhead, and the controlled temperature is configured to cause the second material to evaporate within the process volume of the second ampoule and flow to the input of the second portion of the showerhead; controlling a flow rate of the first material from the first portion of the showerhead and into the process volume of the process chamber by controlling the temperature of the first portion of the plurality of portions of the showerhead; controlling a flow rate of the second material from the second portion of the showerhead and into the process volume of the process chamber by controlling the temperature of the second portion of the plurality of portions of the showerhead; controlling a pressure within the process chamber; controlling a rotation rate of a substrate on a pedestal disposed within the process volume of the process chamber, wherein the rotating substrate is simultaneously or sequentially exposed to the flow of the first material and the second material provided from the first portion and the second portion of the plurality of portions of the showerhead. 9 . The process system of claim 8 , wherein the controlled temperature of each of the first ampoule and the second ampoule is different. 10 . The process system of claim 8 , wherein the controlled temperature of each of the first ampoule and the second ampoule is substantially the same. 11 . The process system of claim 8 , wherein the controlled flow rate of each of the first portion and the second portion of the showerhead is different. 12 . The process system of claim 8 , wherein the controlled flow rate of each of the first portion and the second portion of the showerhead is substantially the same. 13 . The process system of claim 8 , wherein the controlled pressure within the process chamber is between about 1×10 −8 Torr and about 1×10 −5 Torr. 14 . The process system of claim 8 , wherein the controlled rotation rate of the pedestal is between about 0 RPM and about 200 RPM.