Active receive antenna

What is claimed is: 1 . A receive antenna, comprising: a conductive surface having an aperture configured to operate as a slot antenna; one or more amplifiers electrically connected across the aperture; and at least one feed connected between the one or more amplifiers and the aperture; wherein an input impedance Z B of each of the one or more amplifiers at the at least one feed location is lower than 0.5× an impedance of the aperture Z A at a first resonance frequency. 2 . The antenna of claim 1 , wherein the aperture includes a conductive cavity. 3 . The antenna of claim 2 , wherein a first resonance frequency of the conductive cavity is near the first resonance frequency of the aperture. 4 . The antenna of claim 1 , wherein the at least one amplifier is disposed no more than one tenth of a wavelength (λ) from the aperture. 5 . The antenna of claim 1 , wherein the first resonance frequency of the aperture is below 2 GHz. 6 . The antenna of claim 1 , wherein a length of the aperture is less than 0.5 wavelengths. 7 . The antenna of claim 1 , wherein the at least one amplifier comprises a common gate amplifier or common base amplifier. 8 . The antenna of claim 1 , wherein the at least one amplifier is a buffer having an input stage and an output stage. 9 . The antenna of claim 8 , wherein the input stage includes a common gate amplifier, and the output stage includes a common source amplifier. 10 . The antenna of claim 8 , wherein an input impedance of the input stage is lower than an input impedance of the output stage. 11 . The antenna of claim 8 , wherein at least one of the input stage and the output stage is configured as a monolithic integrated circuit. 12 . The antenna of claim 8 , wherein the buffer is interfaced to the slot antenna through an electrical connection. 13 . The antenna of claim 1 , wherein the at least one amplifier includes plural amplifiers and the at least one feed includes plural feeds, the antenna comprising: a mode former having plural ports configured for producing linear combinations of outputs received from the plural amplifiers. 14 . The antenna of claim 1 , wherein the at least one amplifier includes plural amplifiers and the at least one feed includes plural feeds, and wherein a number of outputs corresponding to the plural amplifiers is greater than or equal to a number of signals received by the plural feeds. 15 . The antenna of claim 1 , wherein the at least one amplifier includes plural amplifiers and the at least one feed includes plural feeds, the antenna being configured to operate over a bandwidth and comprises: wherein a spacing between the plural feeds is less than one wavelength at a maximum frequency. 16 . A receive antenna, comprising: a conformal slot antenna formed in a conductive surface; and plural buffers electrically connected to the slot antenna, wherein each buffer includes an input stage and an output stage, the input stage having a lower impedance than the output stage. 17 . The receive antenna of claim 16 , comprising: plural feeds connected between the slot antenna and the plural buffers; plural ports, wherein each port is connected to receive an output produced by one of the plural buffers; a mode former connected to receive a signal from each port and generate linear combinations of outputs produced by the plural buffers. 18 . The receive antenna of claim 17 , wherein to generate the linear combination of outputs produced by the plural buffers, the mode former is configured to: sum all the received outputs in-phase. 19 . The receive antenna of claim 17 , wherein an aperture of the slot antenna is divided into two halves and to generate the linear combination of outputs produced by the plural buffers, the mode former is configured to: sum the received signals from a first half of the aperture with a phase of substantially zero degrees; and sum the received signals from a second half of the aperture with a phase of substantially 180 degrees. 20 . The receive antenna of claim 17 , wherein an aperture of the slot antenna is divided into two halves and to generate the linear combination of outputs produced by the plural buffers, the mode former is configured to: sum all the received outputs in-phase; sum the received signals from a first half of the aperture with a phase of substantially zero degrees; and sum the received signals from a second half of the aperture with a phase of substantially 180 degrees.