Electric heating – Heating devices – Combined with container – enclosure – or support for material...
Reexamination Certificate
2000-04-21
2001-07-10
Walberg, Teresa (Department: 3742)
Electric heating
Heating devices
Combined with container, enclosure, or support for material...
C219S390000, C118S724000
Reexamination Certificate
active
06259066
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a process for processing a material by electromagnetic radiation and in a controlled atmosphere or in a vacuum inside a reaction chamber, the assembly being subjected to a first infrared radiation causing rapid heating to a preset temperature so as to modify the physico-chemical properties of the material arranged on a substrate or to perform deposition of the material on said substrate.
STATE OF THE TECHNIQUE
The material is generally deposited on a support formed by a substrate with the possible addition of intermediate sub-layers. The substrate is generally constituted by silicon in the microelectronics field, but it may also be made of another material, notably polymer, glass or ceramic. The sub-layers can be of widely varying kinds and be deposited previously on the substrate by a suitable technique. An example of a sub-layer can be constituted by a printed circuit or an insulating coating.
To modify the physico-chemical properties of a material, the latter has to be subjected to annealing at high temperature, generally greater than 1000° C. with known heating techniques. Nevertheless if the substrate or the sub-layers are fragile, it is not possible to use a high temperature since the substrate or the sub-layers are liable to be destroyed.
In the microelectronics field, rapid thermal processing applications such as RTP annealing and RTCVD chemical vapour deposition are implemented in special furnaces in a vacuum or in a controlled atmosphere. In the case of RTP, rapid heating of the material to a preset temperature is obtained in order to subsequently modify the physico-chemical properties of the material either during maintaining of the temperature or during decrease of the temperature. In the case of RTCVD, rapid heating of a surface in contact with reactive gaseous species enables a thin layer of a material to be deposited on this surface by reaction between the gaseous species and the heated surface.
Rapid thermal processings have to be stable and reproducible and are generally performed in furnaces with infrared radiation lamps IR and cold walls.
When thermal processings are performed, the maximum temperature reached during rapid heating is very high and can be comprised between 1000° C. and 2000° C. depending on the type of applications. The range of materials able to be treated is thus limited, as more and more substrates are not designed to withstand high temperatures, notably those achieved with a polymer base, materials with low melting points, CMOS component supports, etc.
The action of ultraviolet radiation UV to modify certain chemical components due to the effect of photonic UV radiation is moreover known. Among the photon UV sources, conventional xenon, mercury and deuterium UV lamps having a wide spectral band comprised between 100 and 800 nm and a relatively low power can be distinguished. Lasers of the CO
2
, Nd, YAG, Ar, and excimer type also exist, constituting costly emitters having a narrow central band and a reduced spatial resolution of about a few cm
2
.
The document U.S. Pat. No. 4,837,484 describes a UV discharge lamp having a narrow spectral resolution, a high power, and a wide spatial resolution of several tens of cm
2
.
These UV lamps contain excimer gases or mixtures of gases constituted by: Ar
2
*, Kr
2
*, Xe
2
*, F
2
*, Cl
2
*, Br
2
*, I
2
*, ArF*, ArCl*, KrCl*, XeCl*, HgNe*, HgAr*, HgKr*, HgXe*.
The document U.S. Pat. No. 5,441,569 describes a processing device for thin layer depositions making use of two lasers, one CO
2
and the other excimer with a wave-length of 248 nm. The lasers present small processing surfaces and the device is not equipped with infrared heating.
The document U.S. Pat. No. 5,863,327 refers to a processing apparatus using an infrared radiation source IR and an ultraviolet radiation source with lamps UV having wave-lengths comprised between 50 nm and 300 nm.
OBJECT OF THE INVENTION
The object of the invention is to achieve a surface processing process consisting in lowering the processing temperature of the material so as not to adversely affect the resistance of the substrate or of the sub-layers, regardless of their natures or compositions.
The process according to the invention is characterized in that:
a second excimer type ultraviolet radiation UV, having a spectral resolution lower than 40 nm regardless of the wavelength of the ultraviolet radiation UV is used inside said reaction chamber so as to generate a photon flux suitable either for modification of the physico-chemical properties of the material M or for formation of said deposit,
the exposure time of the second ultraviolet radiation UV is shorter than that of the first infrared radiation IR,
the processing temperature is comprised between 70° C. and 800° C. according to the nature of the material.
The combined action of the first infrared radiation and of the second excimer ultraviolet radiation enables the processing temperature to be lowered according to the type of material and of the substrate. Materials having lower thermal resistances than that of silicon will thus be able to be used for the substrate and the sub-layers.
The spectral resolution of the second ultraviolet radiation UV is preferably about 10 nm.
According to another feature of the invention, the material or substance to be processed contains a compound which is photochemically sensitive to the wavelength of the photon flux of the second excimer ultraviolet radiation UV.
The invention also relates to a processing device comprising:
infrared emitters designed to obtain a first infrared radiation IR causing rapid heating of the substrate,
ultraviolet lamps of the excimer type capable of emitting a second ultraviolet radiation UV having a spectral resolution lower than 40 nm causing a modification of the properties of the material or substance to be treated,
windows, inserted between the substrate and the infrared emitters and ultraviolet lamps, and made of a transparent material letting the first infrared radiation IR and the second ultraviolet radiation UV pass,
and reflectors inserted between the wall of the reaction chamber and the infrared emitters and ultraviolet lamps to obtain an optimum thermal power density on the substrate.
The substrate is arranged in the central part of the reaction chamber and is subjected to the two opposite radiations from the infrared emitters and the excimer type ultraviolet lamps.
The stainless steel reaction chamber with cooled double wall preferably comprises an external pumping system connected to a first orifice to work in a vacuum or at atmospheric pressure and injection means for injecting a flow of neutral or reactive gas to said chamber via a second orifice.
In addition to the thermal processing applications of the material, two other possible applications exist with lowering of the temperature by means of an excimer ultraviolet radiation UV:
the chemical vapour deposition CVD technique which makes gaseous species react with a surface. To achieve the reaction, the surface is heated to a certain temperature by the infrared radiation IR with formation of a layer of material arising from the reaction of the gaseous species sensitive to ultraviolet radiation UV on the surface of the substrate;
the deposition technique by breakdown of an organometallic of a material on a support, consisting in spreading a layer of an organometallic sensitive to ultraviolet radiation UV. Under the effect of the ultraviolet radiation UV, the organometallic is broken down into volatile species and a metallic or non metallic layer which remains attached to the substrate. The ultraviolet radiation UV can be completed by infrared heating of the substrate.
REFERENCES:
patent: 4558660 (1985-12-01), Nishizawa et al.
patent: 4837484 (1989-06-01), Eliasson et al.
patent: 5441569 (1995-08-01), Veligdan et al.
patent: 5863327 (1999-01-01), Thakur
R. Singh et al., “Rapid Photothermal Processing”,Solid State Technology,vol. 40, No. 10, Oct. 1997, pp. 193-194,198.
I. Boyd et al., “New Large Area Ultraviolet Lamp Sources and
Ducret Rene-Pierre
Touchais-Papet Emmanuelle
Fuqua Shawntina
Joint Industrial Processors for Electronics
Oliff & Berridg,e PLC
Walberg Teresa
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