Doherty amplifier and communication device

The invention claimed is: 1. A Doherty amplifier comprising: a carrier amplifier for amplifying a first signal and outputting the amplified first signal; a peaking amplifier for amplifying a second signal and outputting the amplified second signal, the peaking amplifier having a non-linear output capacitance; a first output circuit for transmitting the first signal output from the carrier amplifier; a second output circuit for functioning as a virtual short stub when the peaking amplifier does not perform an amplification operation, and transmitting the second signal output from the peaking amplifier; and a combining circuit for combining the first signal transmitted by the first output circuit and the second signal transmitted by the second output circuit and outputting a combined signal of the first signal and the second signal, wherein, when the peaking amplifier performs the amplification operation, the second output circuit transforms an impedance seen by looking into the combining circuit from the peaking amplifier into an impedance in an inductive region, and wherein the peaking amplifier reduces an inductive component of the impedance seen by looking into the combining circuit from the peaking amplifier by the non-linear output capacitance of the peaking amplifier. 2. The Doherty amplifier according to claim 1 , wherein the first output circuit has an electrical length of less than 90 degrees that compensates for reactance of the second output circuit as seen from an output side of the carrier amplifier when the peaking amplifier does not perform the amplification operation. 3. The Doherty amplifier according to claim 1 , further comprising: a first output matching circuit for converting an output impedance of the carrier amplifier into an impedance of the first output circuit; and a second output matching circuit for converting an output impedance of the peaking amplifier into an impedance of the second output circuit. 4. A communication device comprising the Doherty amplifier according to claim 1 as an amplifier that amplifies each of the first signal and the second signal, the first and second signals corresponding to signals obtained by dividing a communication signal. 5. A Doherty amplifier comprising: a carrier amplifier for amplifying a first signal and outputting the amplified first signal; a peaking amplifier for amplifying a second signal and outputting the amplified second signal, the peaking amplifier having a non-linear output capacitance; a first output circuit for transmitting the first signal output from the carrier amplifier; a second output circuit for functioning as a virtual short stub when the peaking amplifier does not perform an amplification operation, and transmitting the second signal output from the peaking amplifier; and a combining circuit for combining the first signal transmitted by the first output circuit and the second signal transmitted by the second output circuit and outputting a combined signal of the first signal and the second signal, wherein, when the peaking amplifier performs the amplification operation, the second output circuit transforms an impedance seen by looking into the combining circuit from the peaking amplifier into an impedance in an inductive region, and wherein the second output circuit has an electrical length larger than 90 degrees and smaller than 180 degrees. 6. A Doherty amplifier comprising: a carrier amplifier for amplifying a first signal and outputting the amplified first signal; a peaking amplifier for amplifying a second signal and outputting the amplified second signal, the peaking amplifier having a non-linear output capacitance; a first output circuit for transmitting the first signal output from the carrier amplifier; a second output circuit for functioning as a virtual short stub when the peaking amplifier does not perform an amplification operation, and transmitting the second signal output from the peaking amplifier; and a combining circuit for combining the first signal transmitted by the first output circuit and the second signal transmitted by the second output circuit and outputting a combined signal of the first signal and the second signal, wherein, when the peaking amplifier performs the amplification operation, the second output circuit transforms an impedance seen by looking into the combining circuit from the peaking amplifier into an impedance in an inductive region, and wherein the second output circuit has an electrical length larger than-90 degrees and smaller than 0 degrees in a left-handed coordinate system.